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English Pages [248] Year 1960
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comme oes ; S ra . Py ce es eae ce eats Tene ums, Shee
ee A report to the President ona Program for Postwar Scientific Research
By Vannevar Bush | Director of the Office of Scientific Research and Development
July 1945 Reprinted July 1960
National Science Foundation Washington, D. C.
NSF—60—-40
Science — The Endless Frontier “New frontiers of the mind are before us, and if they are pioneered with the same vision, boldness, and drive
with which we have waged this war we can create a fuller and more fruitful employment and a fuller and
more fruitful life.’”—
FRANKLIN D. RoosEvELt.
November 17, 1944.
FOREWORD The National Science Foundation has rendered a
useful service in reprinting Science, the Endless Frontier as part of its tenth anniversary observance. The Report, as well as the studies that supported it,
represents the collective efforts of a group of distinguished scientists and other scholars who brought their special experience and knowledge to bear on the problem of establishing a strong research and develop-
ment effort in the postwar period. Their findings with respect to the relations of government to science and education merit a re-reading in the light of today’s
events. Dr. Waterman’s Introduction constitutes an effective summary of the extent to which the recommendations of Science, the Endless Frontier have been realized during the fifteen years since it first appeared. I welcome the republication and hope that it will be a genuine service to all who have responsibilities for the national effort in scientific research and development. VANNEVAR BusH
lll
TABLE OF CONTENTS
Foreword 1... 0... 0c cee cece cece nee ee eee nee ne ete eteeeeeeeeee Ui
Introduction ....... 0... cece eee eee ee eee eee eee eee eeeeae Wil
Letter of Transmittal 2.0.0... 000. cece eee eee ee eeee
President Roosevelt’s Letter 0.0... co eee eee OS Summary of the Report ........ 60. ee eee ee eee OD Part ONE: Introduction: Scientific Progress is Essential .......000... 000 ee eee eee eee reese 10
Science is a Proper Concern of Government ...................-. I]
Government Relations to Science—Past and Future ............... Il Freedom of Inquiry Must be Preserved .........0 00-0000 02 eres TQ Part Two: The War Against Disease:
In War oo. ec ccc cece eee eee t tenets tee eeeneeaee 13
In Peace oo. cece eee e teeter eect teen neeeseeae 13 Unsolved Problems .......... 0.00.00 cee cece eect eee eaee 14 Broad and Basic Studies Needed 1.0.0.0... 00 ccc ee eee eee 14 Coordinated Attack on Special Problems .............0....+005.. 14
Action is Necessary... 0.000 teens 15
Part THREE: Science and the Public Welfare
Relation to National Security 2.0.0... eee 17
Science and Jobs 0.0.0.0... 00 cece eect eee e eee 18 The Importance of Basic Research .......60.. 0000 e eee eee eee ee 18 Centers of Basic Research ..... 0.0... terete renee LY Research Within the Government ......0.0..00 000 ce eee eee ee eee 20
Industrial Research 1.0.0.0... 0 cece cece nett eee eee Al International Exchange of Scientific Information ..............5+. 22 The Special Need for Federal Support .......0....0000 5c eee 22
The Cost of a Program .. 00... teens 22 Vv
Part Four: Renewal of Our Scientific Talent: Nature of the Problem ............ 0.0... cee cee eee nee e eee eeeeee 23
A Note of Warning ...... 0. cece eee e eee e eee 23 The Wartime Deficit... 0.0... ee eee eee teens 24 Improve the Quality ....... 0.0... ce ccc cee eee eee 24 Remove the Barriers ............0 ccc ce eee eeceeeeeeeveeeeeeee 2D
The Generation in Uniform Must Not be Lost ................... 25
A Program ..... 0... eee cence 26 Part Five: A Problem of Scientific Reconversion:
Effects of Mobilization of Science for War .............00000 000. 28
Security Restrictions Should be Lifted Promptly .................. 28
Need for Coordination ........ 0.0... eee teen eee BO A Board to Control Release ........ 0.0.0. cece eee erences 29 Publication Should be Encouraged .........0..0. 0 0c c eee eee eens 30 Part Six: The Means to the End:
New Responsibilities for Government .............00..0eeeeeeee 3] The Mechanism ........... 0... cece cece cece eeeveeceetceeees 3]
Five Fundamentals ........0 000000 e ne eceesees 32
Military Research 1.0... 0... c ccc cece tent t eet eeetaee 33 National Research Foundation ............ 0.0 c cece eee eeuteeee 34
I. Purposes... 0... eee cette eet e ee teteeaeee 34 Il. Members 2.0.0... 00.0 eee ee ne ree tereeserses 34 ITI. Organizations 2.0.0... cece eee eee eee ee 35
IV. Functions 0.0.0.0... 0.0 cee eee eee teeeceetecsses 397
V. Patent Policy 2.0... cect cence ences 38
VI. Special Authority 2.0.0.0... 0. cece eect eee eens 38
VIL. Budget .... 0... ccc ccc cece eee ence 39 Action by Congress ..... 0.0... cece eect nee t een e cece 40
APPENDICES
1. Committees Consulted .......0 00... c cc cece teen c ce eee 43 2. Report of the Medical Advisory Committee, Dr. W. W. Palmer,
Chairman... 0... cc ete te nee e cence eeerees 46
3. Report of the Committee on Science and the Public Welfare,
Dr. Isaiah Bowman, Chairman ...............0.00ceeeeeees 70 4. Report of the Committee on Discovery and Development of Scientific Talent, Dr. Henry Allen Moe, Chairman ........ 135 5. Report of the Committee cn Publication of Scientific Information,
Dr. Irvin Stewart, Chairman ............. 0.000. e eee cess 186
INDEX 2... eee cc cece e eee e eet e renee eeeeseeeeess 193
vi
INTRODUCTION
ALAN T. WATERMAN
Director, National Science Foundation
On November 17, 1944, President Franklin D. Roosevelt addressed a letter to Vannevar Bush, director of the wartime Office of Scientific Research
and Development, asking his advice as to how the lessons that had been learned from that experience could be applied in the days of peace that lay ahead. With the help and recommendations of four committees of distinguished scientists and other scholars, Dr. Bush set forth in clear and specific terms what he felt the relations of government to science should be and how these should be sustained. His report to the President was published in July 1945, under the imaginative title, Science, the Endless Frontier. ‘The major recommendation was that a “National Research Foundation” should be established by the Congress to serve as a focal point for the support and encouragement of basic research and education in the sciences and for the development of national science policy. Five years later, in May, 1950, the Congress passed the National Science Foundation Act of 1950, bringing the new foundation into being. On the occasion of the tenth anniversary of the Foundation’s establishment,
it seems appropriate to turn again to Science, the Endless Frontier and to attempt some assessment of the extent to which the objectives it set forth have been met. A re-reading impresses one with the perspicacity with which this remarkable document anticipated the major needs and problems relating to research and development in the postwar period. Although there have been
shifts in emphasis since the report was written 15 years ago, its principles and its clear enunciation of the fundamental responsibility of the Federal Government in the area of research and development are as fresh and sound today as when they were written.
The original edition of Science, the Endless Frontier has long been out of print and the National Science Foundation is happy to make it available once more—not as an historical document, but as a classic expression of
desirable relationships between government and science in the United States. Its usefulness and validity today are all the more remarkable when it is remembered that Dr. Bush and his advisers were of course quite unable to anticipate the specific developments that have most profoundly influenced our time, namely, the Korean war and the cold war, the missile and satellite race, the Soviet technological challenge, and the rapid acceleration of space research. Nor could Dr. Bush have estimated, in the final days of World War I], the full growth and direction of the atomic energy effort, including Vil
the large-scale programs and peaceful uses of nuclear energy. But he did anticipate in fullest measure that important developments would occur and that science and science education would be of immense importance in the postwar growth of the United States. The closing words of his Report were strongly prophetic: “On the wisdom with which we bring science to bear against the problems of the coming years depends in large measure our future as a nation.”
Science and Government Dr. Bush expressed the view that science is the proper concern of government but pointed out that the Government had only begun to utilize science in the Nation’s welfare. He cited the absence within the Government of a body charged with formulating or executing national science policy and pointed out that there were no standing committees of the Congress devoted to this important subject. At the present time, science policy is constantly being made by the National Science Foundation with respect to basic research; by the President’s Science Advisory Committee in matters in which the Chief Executive is responsible for direct action; and by the Federal Council on Science and Technology on coordination and planning that involve the interaction of the agencies of the Government concerned with research and development.
There are now three standing committees in the Congress whose concerns are directly related to science and technology: the Joint Committee on Atomic Energy; the Senate Committee on Aeronautical and Space Sciences; and the House Committee on Science and Astronautics. Twentyfour agencies within the Federal Government are responsible for the Government’s obligation of funds for conduct of research and development, although nine agencies account for 99 per cent of the total.
The Importance of Basic Research The principal focus of Science, the Endless Frontier is the importance of basic research. Of it, Dr. Bush said: Basic research leads to new knowledge. It provides scientific capital. It creates the fund from which the practical applications of knowledge must be drawn. . . . Today, it is truer than ever that basic research is the pacemaker of technological progress. ...A nation which depends upon others for its new basie scientific knowledge will be slow in its industrial progress and weak in its competitive position in world trade, regardless of its mechanical skill.
Dr. Bush viewed the publicly and privately supported colleges and universities and the endowed research institutes as the centers of basic research that must furnish both the new scientific knowledge and the trained research
workers. He pointed out that if they were to meet the rapidly increasing demands of industry and government for new scientific knowledge, their basic research would have to be strengthened by the use of public funds.
Basic research is fundamental to all of the research and training needs Vili
which the Report considers. It is through basic research in biology, biochemistry and other sciences, for example, that the solutions to major disease problems are to be reached. Basic research is necessary to national defense if the United States is not to find itself ghting the next war with weapons merely improved from the last. Economic growth and the development of new products in industry are dependent upon rich resources of basic knowledge. And finally, knowledge of the methods and techniques of basic research
is essential to the training and full development of skilled research investigators.
In the years since Science, the Endless Frontier was written, there has been an increased awareness on the part of the Government of the importance of basic research as shown by a steady trend upward in the amount of Federal funds for basic research and by an increase in the number and diversity of Government sources by which such support is furnished. However, the percentage of funds available for basic research has failed to increase in relation to total Federal funds for research and development—remaining somewhere between 6 and 7 per cent for a number of years. In short, all the problems relating to the understanding and nurture of basic research in this country have not been solved.. The general public is still far from a true understanding of the nature of basic research and of the fundamental difference between science and technology. The evidence suggests that industry could profitably support a larger basic research effort both in its own laboratories and in the form of extramural support for colleges and universities. The relative proportion of Federal research and development funds between basic research and applied research and development has not achieved a completely desirable balance. ‘These matters will be considered in
somewhat greater detail further on under the discussion of the National Science Foundation.
Research Within the Government Science, the Endless Frontier notes that research within the Government is an important part of our total research activity and urges that it be strengthened and expanded. In particular, it cites the need for revision of personnel practices and procedures in order to place the Government in a more advantageous position in competing with industries and the universities for frstclass scientific talent. Some progress has been made toward carrying out these recommendations. A series of legislative acts has created an excepted category for scientific personnel, authorized the Federal agencies to pay travel expenses to posts of duty,
and provided opportunity for scientific and professional employees to take leave with pay,for educational and training purposes. Changes in administrative attitudes have brought about an improved climate of opinion in Government laboratories which has resulted in increased opportunity and funds for Government scientists to engage in basic research. Publication in scientific journals is encouraged, and the payment of travel expenses to enable Government employees to attend scientific meetings is now rather generally accepted as right and necessary. 1X
With respect to the organization of the administration of scientific activities within the Government, the Report declares: In the Government the arrangement whereby the numerous scientific agencies form parts of larger departments has both advantages and disadvantages. But the present pattern is firmly established and there is much to be said for it. ‘There is, however, a very real need for some measure of coordination of the common scientific activities of these agencies, both as to policies and budgets, and at present no such means exist.
The Report recommends: A permanent Science Advisory Board should be created to consult with these scientific bureaus and to advise the executive and legislative branches of Government as to the policies and budgets of Government agencies engaged in scientific research.
The Report recommends that the board should be composed “of disinterested scientists who have no connection with the affairs of any Government agency.”
These observations are of particular interest in view of the current debate over the need for a Department of Science and Technology. The coordination of common scientific activities, both as to policies and budget, is the responsibility for the newly established Federal Council on Science and ‘Tech-
nology; and the advice and counsel of disinterested scientists is available to the President through his Science Advisory Committee. It should be noted, however, that full attention to these matters was stim-
ulated primarily by the Russian sputnik. Immediately after its successful launching, the post of Special Assistant to the President for Science and Technology was created; and the President’s Science Advisory Committee— which had been established under the Office of Defense Mobilization in 1950 —was reconstituted and placed directly under the President.
Industrial Research The Bush Report approaches the issue of industrial research by stating directly: “The simplest and most effective way in which the Government can
strengthen industrial research is to support basic research and to develop scientific talent.” It goes on to point out, however, that one of the most important factors affecting the amount of industrial research is tax law, and it recommends that the Internal Revenue Code be amended to remove uncertainties in regard to the deductibility of research and development expenditures as current charges against net income. The tax laws have now been changed, partially at least, to meet this particular problem. Among various legislative provisions designed to encourage business participation in private research ventures are Section 174 of the Internal Revenue Code of 1954, which permits business expenditures for research to be deducted from taxable income, and Section 9 of the Small Business Act of 1958, which encourages small business concerns to engage in joint research and development efforts. The contributions of industrial research to our development as a nation are too obvious to require review. Furthermore research and development are
themselves developing into a major industry for which the late Sumner Slichter coined the phrase, “industry of discovery.” The importance of Xx
research to economic stabilization and growth is now almost universally recog-
nized. In 1958 the National Science Foundation sponsored a conference on research and development and its impact on the economy. The impact of the conference itself was such that industrial officials who attended confessed
afterwards that the conference had convinced them that they should not reduce research and development expenditures in the face of the 1958 recession. It is hoped that industry will continue to accord full support to basic research, both in its own laboratories, and, to the extent possible, through extramural support of basic research in the universities. Organized labor is also developing an increasing awareness of the relation
of research to the health and growth of the economy. In 1959 the AFL-CIO sponsored a conference on “Labor and Science in a Changing World.” The conference acknowledged the inevitability of the technological progress and
explored ways in which organized labor could meet the challenges and demands of the new technology.
Medical Research Medical research is a point of major emphasis in Science, the Endless Fron-
tier. An entire chapter, “The War Against Disease,” is devoted to it and it was studied in great detail by one of the four advisory committees. Uppermost in the minds of Dr. Bush and his consultants were the impressive accomplishments of the military medical research and development effort and the absence of a specific agency for their continued support following the close of the war. Here again the emphasis was on basic studies. ‘The Report observes:
It is wholly probable that progress in the treatment of cardiovascular disease, renal disease, cancer, and similar refractory diseases will be made as the result of fundamental discoveries in subjects unrelated to those diseases and perhaps entirely unexpected by the investigator. Further progress requires that the entire front of medicine and the underlying sciences of chemistry, physics, anatomy, biochemistry, physiology, pharmacology, bacteriology, pathology, parasitology, etc, be broadly developed.
Both Dr. Bush and his Medical Advisory Committee recommended action on the part of the Federal Government to initiate a support program for basic medical research in the medical schools and in the universities through grants for research and through fellowships. Dr. Bush recommended that the proposed program be administered by a “Division of Medical Research” of the “National Research Foundation”; the committee recommended that a second organization be established, to be called the National Foundation for Medical
Research. Actually, both recommendations have been met by subsequent events, which resulted in both a division within the National Science Foundation that supports basic medical science (Division of Biological and Medical Sciences) and in a completely independent organization, the National Institutes of Health, which has far surpassed in its support programs anything
that the Committee envisioned in the recommended Medical Research
Foundation. The two sets of recommendations did not differ greatly as to the amount of
support that should be established at the initiation of the program—Bush xl
recommending an initial start of $5 million a year extending upwards to perhaps $20 million a year at the end of five years; his Medical Advisory Committee recommending a start of approximately $5 to $7 million annually, with
larger sums to follow as the program developed. The Committee urged the need for unrestricted grants, with support of fellowships and projects being of relatively less importance in their thinking. A striking feature of postwar developments in the Government's support program for medical and health-related sciences has been the rapid rate of increment of funds. This is the result of the deep and continuing interest of the Congress in the progress of medical research. The National Institutes of Health has increased its obligations for research grants alone from $85,000 in 1945 Ca year when the Bush Report suggests $5 to $7 million) to more than $155 million for grants and contracts in 1959. In addition, of course, the
Institutes operate their own intramural research program at the Clinical Center and funds for this were around $45 million for 1959, That both organizational recommendations have been met-—that is, for a division of the Foundation and for a separate institutional organization— appears to have been a fortunate turn of affairs. The National Institutes of Health stresses research aimed at the care and cure of diseases, including basic research related to its mission, as defined by Executive Order 10512. The National Science Foundation, on the other hand, supports basic research in this area primarily for the purpose of advancing our knowledge and understanding of biological and medical fields. With more than one source of funds available from the Federal Government, scientists enjoy the broader base of support that is consistent with American tradition.
Although the U. S. Public Health Service and the National Science Foundation are the principal sources of funds for medical research, mention should also be made of the intramural programs of the Veterans Administration, the military services, and the medical research programs of the Atomic Energy Commission.
Military Research With the civilian Office of Scientific Research and Development just bringing to a close its brilliantly successful program of wartime research on weapons and devices of warfare, and problems of military medicine, Dr. Bush felt that a certain amount of long-range scientific research on military problems should continue to be carried on in peacetime by a civilian group. Such research would complement research on the improvement of existing weapons which, he felt, could best be done within the military establishment. He therefore recommended that the new “National Research Foundation” should include a division of national defense. For this he contemplated a modest level of expenditures of $10 million for the first year, rising to $20 million by the end of the fifth year. Here again, as in the case of medical research, the situation evolved in a way quite different from that originally visualized by Bush, but which has probably met the substance of his principal recommendations. A division of national defense was stricken from proposed legislation establishing a new XII
agency largely because the delay had resulted in different measures being taken. The military services, who were well pleased with the civilian research performed in the universities under OSRD sponsorship, continued such arrangements with the universities by writing appropriate new contracts to continue the work started under OSRD auspices or to launch entirely new investigations. In ensuing years, many contracts of this type were entered
into by the military services with a growing number of universities. The central laboratories originally associated with OSRD contracts, such as the Applied Physics Laboratory, Johns Hopkins University, the Radiation Laboratory at M.I.T., and the Jet Propulsion Laboratory of the California Institute of Technology, developed into the research centers, which, though supported by military funds, are operated by civilian scientists under civilian management.
In addition to applied research for the solution of immediate problems, the three services gradually expanded their research programs to include grants for basic research—in general related to their missions but often of a very fundamental nature. During the five-year period between the publication of Science, the Endless Frontier and the enactment of the National Science Foundation legislation in 1950, the Navy Department, through its Office of Naval Research (established by Congress in 1946) gave generous support to basic research in a wide variety of fields. Later, by order of their respective secretaries, a similar pattern was adopted by the Department of the Army, through its Office of Ordnance Research, and the Air Force, through the Air Force Office of Scientific Research. The Bush thesis that “some research on military problems should be continued, in time of peace as well as in war, by civilians independently of the military establishment’ has not been adequately tested because of the uncertain character of the peace that has existed since the close of World War II. In general, however, it can be said that a substantia] number of the Nation’s top scientists, both within the Department of Defense and in outside institutions, are applying their talents to military problems with imagination and vigor.
International Relations in Science With their long tradition of effective international cooperation in science, it is not surprising that a group of scientists should urge upon the Government the importance of a vital program for the continuing international exchange of scientific information, through both the medium of scientific literature and active participation in international conferences, symposia, and other forms of international collaboration in science. Thus the Committee on Science and the Public Welfare recommended that scientific attachés be appointed to serve in certain selected United States embassies. “Such a post,’ observed the Committee, “would appear to be most important in countries such as Russia, where a great deal, if not all, of the scientific activity is controlled or directed by the government and where other channels of scientific communication have been greatly restricted for several x11
years.” This recommendation was reafirmed by a special Department of State International Science Steering Committee in its report, Science and Foreign
Policy, released in May 1950 at about the same time the National Science Foundation legislation was being enacted. The Office of Science Adviser to the Secretary of State was established in a preliminary way in the summer of 1950 and the post of Science Adviser was
formally filled as such in February 1951. During the first year, science attachés were assigned to London, Stockholm and Bern. The following year similar posts were added in Bonn and Paris. Following the resignation of the Science Adviser in July 1953, the program
was gradually permitted to lapse. Meanwhile, the scientific community, which felt that the program had made a definite contribution to international understanding and cooperation in science, pressed for a reactivation of the program—principally through the medium of editorial comment as expressed in various scientific journals. Under urging from the National Academy of Sciences, the National Science Foundation, and the President’s Science Advisory Committee, the Department of State decided to renew and strengthen the program in July 1957. The new Science Adviser took office in January 1958. In January 1959 the attaché program was again active, with attachés assigned to London, Paris, Stockholm, Bonn, Rome, Tokyo, New Delhi, Rio de Janeiro, and Buenos Aires. At the present time no real obstacle appears to exist to the fulfillment of the original Bush proposal that a scientific attaché in Moscow would be
useful. In addition, the way appears to have been opened for better exchange between the U. S. and the U.S.S.R. of both scientific information and scientists under the Bronk-Nesmeyanov Agreement of July 1959. As far as international scientific conferences are concerned, the situation is probably more satisfactory than at any time since the Bush Report was published. U. S. attendance at such meetings has been strengthened and placed on a more orderly basis through the National Science Foundation’s authority to pay travel expenses of American scientists attending scientific meetings abroad and through the continued backing of the scientific unions by the National Academy of Sciences. In general, scientists are chosen to represent the U. S. by their peers acting usually through the scientific societies. With respect to foreign scientists traveling to the U. S. for scientific meetings, there have been some improvements in the situation. The visa problem of recent years has been greatly alleviated. ‘The current problem, which is a very real one for science but which transcends scientific considerations, is the problem of recognition and non-recognition of certain nations. The international scientific community operates without regard to political considerations and establishes its meetings and selects its delegates solely on the basis of their scientific qualifications. When these run head-on into political considerations involving the entrance of foreign nationals, there are, of course, knotty problems to be solved. At the present time, these problems appear to admit of no easy solution. On the positive side, by far the largest and most impressive example of effective international cooperation in science was the International Geophysical Year of 1957-58. The U. S. was one of 66 nations participating in the XIV
18-month period of intensive geophysical research. The scientific program was under the direction of the U. S. National Committee for the International
Geophysical Year, National Academy of Sciences. Here again the Bush Report anticipated what was to come by citing the International Polar Year as an example of significant international scientific activity. [he Report rec-
ommended that “the National Research Foundation be charged with the responsibility of participating in such international cooperative scientific enter-
prises as it deems desirable.” The National Science Foundation secured and administered Government funds for U. S. participation in the International Geophysical Year to the extent of $43,500,000. In the contemporary scene, international activities in science have necessarily widened to include political considerations. ‘Through such mediums as
the International Conference on the Peaceful Uses of Atomic Energy, the nations of the world are working to divert the powerful new forces of nuclear energy into constructive uses. Similarly, the nations may find it necessary in the common good to agree and cooperate on scientific and practical aspects of outer space research. The Antarctic Treaty under which twelve nations
have agreed to preserve the Antarctic as a great scientific laboratory is a major landmark in international relations.
Renewal of Scientific Talent In a chapter entitled “Renewal of Our Scientific Talent,” Dr. Bush takes as a major premise the statement of James B. Conant that “. . . in every section of the entire area where the word science may properly be applied, the limiting factor is a human one. We shall have rapid or slow advance in this direc-
tion or in that depending on the number of really first-class men who are engaged in the work in question. . . . So in the last analysis the future of science in this country will be determined by our basic educational policy.” Dr. Bush and his advisory committee on education were concerned (1) with broadening the base from which students with scientific aptitude and talents
could be drawn, and (2) with filling the wartime deficit in young scientists and engineers. They were concerned with quality and with the full operation of the democratic process. ‘They felt that all boys and girls should be able to feel that, if they have what it takes, there is no limit to the opportunity. A ceiling should not be imposed on a young person’s educational opportunities either by limited family means or negative family attitudes. Science, the Endless Frontier also emphasized the importance of teaching
in these words: “Improvement in the teaching of science is imperative; for students of latent scientific ability are particularly vulnerable to high school teaching which fails to awaken interest or to provide adequate instruction.” The specific recommendations of the Bush Report in the area of science education were for the establishment of a national program of science scholar-
ships and science fellowships and for the subsequent enrollment of the recipients of these awards in a National Science Reserve upon which the Government could draw in times of emergency. In the establishment and operation of the Foundation’s program of educa-
tion in the sciences, there has been fundamental and perhaps unanimous XV
agreement with the Bush thesis. The methods and techniques by which these objectives are to be accomplished do not coincide at every point with
the rather general proposals set forth in the Bush Report; nevertheless, | think it can be said that all the programs that the Foundation has initiated and supported have contributed in significant measure to the principal recommendation of Dr. Bush, namely, that the Nation’s pool of scientific talent should be strengthened and improved. In the very first year of operation with its total budget only $3.5 million, the Foundation awarded 575 predoctoral and postdoctoral fellowships. Over the ten-year period the fellowship program has been gradually expanded to include fellowships in other categories, and more than 12,000 fellowships in all categories have been awarded. The Foundation has not embarked upon a program of scholarship support for a number of reasons, the principal one being the conviction of the National Science Board that an undergraduate program of scholarship support should not be limited to a particular field of science or even to science and engineering generally. The Foundation does, however, support several programs of a different type which provide to gifted students, at both the undergraduate and secondary-school levels, research experience and educational opportunities far beyond those afforded by the normal curriculum.
Financial assistance for undergraduate students was anticipated by Dr. Bush and his Committee. Although Public Law 346 (G.I. Bill of Rights) had been passed in 1944 and is mentioned at some length in Science, the Endless Frontier, its ultimate impact was not apparent at that time. The final sum-
ming up is impressive. Of the more than 7.5 million veterans who took advantage of this training, more than two million pursued courses in schools
of higher learning. Almost 10 per cent of the total (744,000) pursued courses in scientific fields. ‘The engineering profession attracted 45,000 and
medicine and related courses more than 180,000. The remaining 113,000 who elected to study in the natural sciences were variously distributed among geology, chemistry, geography, metallurgy, physics, medicine, dentistry, and others.
About two million veterans of the Korean conflict received similar educational opportunities under the Veterans Readjustment Assistance Act of 1952. Engineering, medical, dental, and scientific fields attracted about a quarter million of these.
Other sources of financial aid for undergraduate students include the National Merit Scholarship Corporation, a nonprofit institution established and supported by philanthropic foundations and business organizations, and the National Defense Education Act of 1958, which provides for loans to students in institutions of higher education. Dr. Bush’s urgent plea that the generation in uniform should not be lost seems to have been abundantly answered. ‘The evidence suggests also that the military services are making constructive efforts to utilize both draftees and officers in positions in which they can make use of specialized skills and
training. The services also have interesting programs for continuing the advanced education of highly qualified men through such mediums as the Navy Postgraduate School and through direct subsidy of advanced education for military men in colleges and universities. xvi
A comparison of the support levels for scientific personnel and education recommended in Science, the Endless Frontier and those that actually obtain is difficult. The Bush recommendation of $7 million for the first year, rising to $29 million by the fifth year, was based on an annual program of 6,000
undergraduate scholarships and 300 graduate fellowships. The National Science Foundation’s obligations for scientific personnel, education and manpower, which in the early years were devoted largely to graduate fellowship support, totaled approximately $1.5 million the first year and $4 million about
the fifth year. During this period, of course, Federal funds for education were also available through the G.I. Bill, through the fellowships of the National Institutes of Health, and the Atomic Energy Commission, as well as from other sources. By 1960 the Foundation’s obligations for scientific personnel and education totaled more than $65 million, of which more than half went for institutes to
improve the teaching of mathematics and science principally in—but not limited to—the high school. The institutes program initiated by the Foundation on an experimental basis in 1953 appealed particularly to Congress and for several succeeding years funds have been specifically appropriated by Congress for this purpose. A significant assessment of the impact and value of these programs is dif_icult at close range. A number of years, possibly a generation, will be required before we may be able to judge fairly the extent to which Federal-support programs have met their objectives. In the National Science Foundation, quality rather than numbers has been
stressed. We have felt that it was important for the whole broad rank and file of students to be made aware of the opportunities and intellectual satisfactions of science as well as other fields; it has seemed to us especially important that those with special aptitudes and ability from whatever walk of life should have the fullest opportunity for the realization of their talents. The Foundation is trying to the extent possible to meet the problem at its
source. It agrees fully with the Bush stress upon the importance of the teaching of science at the high school level. It has been apparent that in order to teach modern science effectively, teachers must not only be adequately trained themselves but must have the opportunity to work with up-todate curriculums and course content and with proper laboratories and equipment. Beginning with the work of the Physical Sciences Study Group at M.LT.,
the Foundation is supporting studies looking toward the complete revision and up-dating of course content in physics, mathematics, chemistry, and biology. This work has included the preparation of new textbooks and teaching aids and the introduction of imaginative and stimulating new equipment. It seems reasonable to assume that these constructive efforts must by their very nature influence for the better the teaching of science. Nevertheless, nothing that has been accomplished thus far provides reason for complacency.
As a nation we still seem a long way from a universal understanding and appreciation for intellectual activity generally and probably will remain so until we attach roughly the same importance to academic achievement as we do, for example, to prowess in sports. xvii
Reconversion At the close of the war Dr. Bush and the scientific community generally were keenly aware of the volume and importance of the scientific information generated during the War and which had necessarily been subject to severe
security restrictions. Of the medical information developed during the War, however, the greater part had remained unclassified and had been published. Dr. Bush expressed the view “. . . that most of the remainder of the classified scientific material should be released as soon as there is ground for belief that an enemy will not be able to turn it against us in this war.” On the whole, this problem seems to have been successfully met. Despite the enormous volume of material involved and the shortages of military and tech-
nical personnel qualified to rule cn the security status of technical data, declassification has been steadily going on since the War. The Department of Defense through its Office of Declassification Policy and the Atomic Energy Commission through its Division of Classification are actively attacking this problem on a continuing basis. In the opinion of some who are dealing with this problem, more reports are being declassified than consumers can find time to read. The latter point, of course, is related to the whole broad problem of the dissemination, storage, and retrieval of scientific information. This problem has received attention from the National Science Foundation since its inception, but because of limitation of funds, activities in this area were nec-
essarily supported at a fairly low level until recently. Early in 1958 the President’s Science Advisory Committee made a detailed study of what the Government should do to improve the flow of scientific information and thereby increase its utilization. As a result of the Committee’s reeommendations, the President directed that the scientific information activity of the
National Science Foundation should be strengthened and expanded. At about the same time, under Title IX of Public Law 85-864 (the National Defense Education Act of 1958), the Foundation was authorized to establish a Science Information Service and also a Science Information Council, which would include in its membership outstanding scientists, information experts, and heads of Federal Bureaus and agencies that are directly concerned with the dissemination of information.
In a number of programs the Office of Science Information Service of the Foundation has sought to improve the dissemination of existing materials by helping to provide for prompt publication of research results, reference aids and information centers of various kinds, and translations of significant scientific papers in languages not widely understood by American scientists. In addition, the Foundation is supporting a slowly growing body of research directed to whole new approaches in various aspects of the information prob-
lem. Most of the research is concerned with exploration of ways of using machines to help with information processing tasks, such as the organization, storage and searching of scientific information and the- translation of scientific
publications from foreign languages into English. Before machines can process the texts of documents, however, for either mechanized information searching systems or mechanical translation systems, more precise knowledge of syntax and semantics is needed. Therefore, current research activities in xviii
these areas are extending our understanding of language with the expectation that ultimately machines will be able to handle linguistic data.
The recommendation of Science, the Endless Frontier that the National Research Foundation should include a Division of Publications and Scientific Collaboration has been substantively realized by the creation within the National Science Foundation of the Office of Science Information Service.
The National Science Foundation In a final chapter labeled “The Means to the End,” Science, the Endless Frontier recommends the establishment of a National Research Foundation, conceived as the principal means for carrying out the other major recommendations contained in the Report. The five years of legislative debate during which the scientific community urged upon Congress the importance of establishing a new foundation are history too familiar to require repetition here.
President T'ruman’s veto of the bill that was finally passed by both Houses of Congress in 1947 was a major disappointment. The President’s objections were directed toward the administrative structure of the new agency under which the director would be elected by a board, a provision which he felt would render it insufficiently responsive to the will of the people. The Bill that was finally passed in May 1950 met the principal objections
of the President by specifying that both the Director and the Members of the 24-member board should be appointed by the President. This unusual arrangement left over-all policy determination and program approval largely in the hands of the Board, with the Director reporting to the President, although serving ex officio on the Board and acting as its executive officer. In 1958 the Board, through an ad hoc committee appointed for the purpose, reviewed the working relationship of the Director and the Board in the light of experience and noted that this relationship has been harmonious and constructive largely as a result of the excellent cooperation on the part of both.
The Board noted further that each year of successful operation, built on a clear understanding on the part of each Board Member of his proper function, and upon wise statesmanship on the part of the Director and his associates gives assurance of continued success. ‘The Board further observed that as each year passes a body of precedents for sound administrative procedures is being built up that may ultimately become an unwritten constitution which will prevail. Some of the organizational anomaly of the Foundation was resolved in 1959 when Congress amended the National Science Foundation Act to permit the Board to delegate authority to the Director and its Executive Committee to approve grants and contracts in certain situations. The delegation of authority has since been implemented by Board action. In other details, the structure of the National Science Foundation, as finally constituted, does not differ substantially from that proposed by Science, the Endless Frontier, except in the omission of a Division of National Defense.
The Report proposed the following Divisions: Medical Research, Natural Science, National Defense, Scientific Personnel and Education, Division of Publications and Scientific Collaboration and appropriate staff offices. XIX
The principal divisions of the Foundation are: Biology and Medicine; * Mathematical, Physical and Engineering Sciences; and Division of Scientific Personnel and Education. There is also an Office of Science Information Service, an Office of Special International Programs, an Office of Special Studies, as well as an administrative division. In 1958 the National Science Board approved the establishment of an Office of Social Sciences, thus bestowing formal status on Foundation support of the social sciences which has been carried on on a limited basis since the early days of the Foundation. The social sciences support program which was
undertaken on the strength of the permissive phrase in the Act “and other sciences” includes projects in the following fields: physical anthropology, functional archaeology, cultural anthropology, psycholinguistics, human ecology, demography, sociology, social psychology, economic and social geography, economics, history of science, and philosophy of science.
Thus in the National Science Foundation we have a functioning organization closely resembling in organization and design the National Research Foundation proposed by Dr. Bush.
Certainly in ideals and objectives it is a prototype of the institution envisioned in Science, the Endless Frontier. ‘The really important question is, of course, to what extent has the Foundation been successful in serving the high purposes and needs for which it was created? Dr. Bush enunciated five basic principles that should characterize an effective program of Government support for scientific research and education: (1) Whatever the extent of support may be, there must be stability of funds over a period of years so that long-range programs may be undertaken.
(2) The agency to administer such funds should be composed of citizens selected only on the basis of their interest in and capacity to promote the work of the agency. They should be persons of broad interest in and understanding of the peculiarities of scientific research and education. (3) The agency should promote research through contracts or grants to organizations
outside the Federal Government. It should not operate any laboratories of its own. (4) Support of basic research in the public and private colleges, universities, and research institutes must leave the internal control of policy, personnel, and the method and scope of the research to the institutions themselves. This is of the utmost importance. (5) While assuring complete independence and freedom for the nature, scope, and methodology of research carried on in the institutions receiving public funds, and while retaining discretion in the allocation of funds among such institutions, the Foundation proposed herein must be responsible to the President and Congress.
C1) The Foundation is aware that continuity and stability are most important in the support of basic research. This can be achieved in two principal ways: one, by making the grant or contract for a term of years rather than for a single year and renewable; the other, by setting aside a revolving fund for the renewal of grants or contracts when the term expires, without reference
to the annual appropriation. In the early years, budget limitations made it difhcult for the Foundation to provide long-range support. As funds have become available, however, the amount and duration of the average grant has steadily increased. ‘The value of the average research grant in fiscal year 1953 was $10,300, for an average duration of 1.9 years; and in fiscal year
1960 the average estimated value has risen to $30,500, with an average *.Under the terms of the Act biology and medical research were initially to be separate divisions. After consideration during the first year it was decided to combine these into a single division. XX
duration of 2.3 years. Individual grants are being made for as long as five
years. Thus fuller support is being achieved, and with grants of longer duration the trend is toward increasing stability. (2) The National Science Foundation has been extraordinarily fortunate in the calibre of the people who have manned its regular staff, as well as in the advisors and consultants who have served untiringly. The National Science Board, as prescribed by law, is composed of persons “eminent in the helds of the basic sciences, medical science, engineering, agriculture, education or public affairs; . . . selected solely on the basis of established records of distinguished service; and . . . so selected as to provide representation of the views of the scientific leaders in all areas of the Nation.” The substantive divisions have statutory divisional committees of scientists eminent in their respective fields or specialties, and a similar committee for the Office of Social Sciences was recently named. At the program level there is an advisory panel for each program which advises and counsels the program director and provides assistance in the formulation of the program in that particular discipline. The regular Foundation staff is selected largely from college and university faculties—many serving on leave for the term of their appointment. The Foundation maintains viable relationships with the scientific and educational communities which make possible constant interchange of views and information.
(3) The Foundation is permitted to operate no laboratories of its own. Early in its history the decision was made that the grant, in general, affords the most effective means of support for basic research. As a result of the Foundation’s efforts, furthermore, the Eighty-Fifth Congress passed Public Law 934, which extends the grant-making authority to appropriate Federal agencies and permits them, also, in the case of basic research grants, to vest title to research equipment with the institution receiving the grant, provided such equipment is not needed for government purposes. The need for major facilities for basic research purposes—not wholly anticipated by the Bush Report—has given rise to a situation in which the Foundation is supporting the construction and operation of such facilities by means of
contracts with qualified organizations. For example, in astronorny, where urgent need exists for both photoelectric instruments and radiotelescopes, the Foundation is supporting two major facilities: the National Radio Astronomy Observatory at Green Bank, West Virginia, and the Kitt Peak National Observatory near Tucson, Arizona. The former is being operated by Associated Universities Incorporated, composed of nine eastern universities, which has had notable experience in the management of large-scale research in the opera-
tion of the Brookhaven National Laboratory. The Kitt Peak Observatory is being constructed and operated by the Association of Universities for Research
in Astronomy, a group of eight universities with major astronomy departments, which was organized specifically for this purpose.
The Foundation has also contributed substantial support to other largescale facilities for basic research, including high-speed computers, an oceanographic research vessel, and nuclear reactors. An even more recent program, which is somewhat related to the facility program, is the development of graduate research laboratories under which Xx]
the Foundation provides funds for the renovation and equipment of the research laboratories of graduate schools.
(4) In the operation of its program, the National Science Foundation has sought to hold to a minimum the burdens imposed upon academic institutions. Administrative requirements on grantees, fellows and contractors are the minimum consonant with accountability and responsibility for public funds. In the last analysis, however, the scientific and academic communities must
be the final judge of the extent to which Federal support has been given without interference in internal affairs or burdensome controls. During its first ten years of operation the Foundation has had no serious complaints on this score.
(5) The Foundation has found its responsibilities to the President and the Congress in no wise incompatible with its independence and freedom of
operation. Congress in its wisdom endowed the Foundation with an unusually broad charter. It is so broad, in fact, that the Foundation from time to time has had to place its own interpretation on its Act and to make policy
decisions regarding what not to do. This wide latitude has enabled the Foundatfon to approach the immense and challenging problems of modern science in innovational and experimental ways. The Director enjoys cordial working relationships with the Special Assistant to the President and with the President’s Science Advisory Committee. Whenever circumstances require it, he has direct access to the President. The
Director is a member of the National Aeronautics and Space Council, the Federal Council on Science and Technology, a consultant to the President's Science Advisory Committee and a member of the Defense Science Board.
The foregoing summary probably represents the extent to which we are able to comment on the success with which these five fundamentals have been met. A more complete judgment must await the perspective of history. So far as the operations of the Foundation are concerned, these have been substantially covered in the course of commenting on the major recommenda tions of Science, the Endless Frontier. Upon examination, the Foundation s
programs, particularly in the area of research support and education in the sciences, will be found to correspond closely with the principal recommendations of Science, the Endless Frontier. An extremely troublesome and difficult problem is the Foundation’s relation to the development of national science policy and to the evaluation and correlation functions. The National Science Foundation Act authorizes and directs the Foundation— to develop and encourage the pursuit of a national policy for the promotion of basic research and education in the sciences;
to evaluate scientific research programs undertaken by agencies of the Federal Government, and to correlate the Foundation’s scientific research programs with those under-
taken by individuals and by public and private research groups; .. .
The number and variety of Federal research programs prompted the Foun-
dation at the outset to consider what should be the responsibilities of the several Federal agencies with respect to the support of extramural research and
development in the sciences. After conferences by NSF staff members with
the Bureau of the Budget and other agencies, the Foundation’s primary XXll
recommendations were set forth in Executive Order 1052] of March 17, 1954.
The Order states that the Foundation “shall... recommend to the President policies for the promotion and support of basic research and education in the sciences, including policies with respect to furnishing guidance toward defining the responsibilities of the Federal Government in the conduct and support of basic scientific research.” The Order further directs that the Foundation shall be increasingly responsible for the support of general-purpose basic research but recognizes, also, the importance and desirability of other agencies’ conducting and supporting basic research in fields closely associated to their missions. The Foundation is not expected to have responsibility for the applied research and development programs of other agencies, and each agency is accountable for the scope and quality of its developmental effort.
With respect to the evaluation function, the Foundation has consistently pointed out that it is unrealistic to expect one agency to render judgment on the over-all performance of another agency unless an agency requests such help. The Foundation has chosen instead to approach the problem in terms of specific areas of science. Through close liaison and exchange of information with other science agencies, the Foundation has endeavored to identify areas that are receiving inadequate support or that require attention for other reasons. In this way it has been possible to bring about needed adjustments on an amicable, cooperative basis. Executive Order 10807 of March 13, 1959, establishing the Federal Council on Science and Technology, also redefines the Foundation’s role in the development of national science policy as applying only to basic research. Within this more specialized framework, the Foundation has been steadily formulating national science policies in the course of day-to-day operations, frequently on the basis of agreement and understanding with other agencies.
Those who insist that policy must be handed down “ready made” in the form of a proclamation or edict do not understand the policy-making process. To be workable, policy must evolve on the basis of experience. In 1959 the Foundation listed a compilation of some fifty science policies of a government-wide, national character that had been recommended by the Foundation during the previous eight years. Drawn from a variety of public statements and published reports the policies are grouped under the following broad categories: Basic Research; Government-University Relationships in the Conduct of Federally Sponsored Research; Indirect Costs; Education and
Training; Federal Financial Support of Research Facilities; GovernmentIndustry Relationships on Research; International Scientific Activities; Organization and Administration of Research; Medical Research, and Scientific Information. As background data for its own research programs and for policy formulation concerning the role of the Federal Government in the support of science, the Foundation early established a series of studies of the nature and extent of the national effort in research and development. Comprehensive surveys are made on a recurring basis of the research and development effort of industry and of universities and other nonprofit institutions. The Foundation’s analyses of the support of research and development by Federal agencies are XXll
published annually in Federal Funds for Science. In addition to statistical surveys of the volume of research and development, the Foundation is also engaged in analytical studies of the close relationship that exists between research and development and the economy in order to achieve a fuller understanding of the effects of research and development on various economic and industrial activities. “The whole effort carries out the directive in the Executive Order “to make comprehensive studies and recommendations regarding the Nation’s research effort and its resources for scientific activities... .” A final word about the Foundation’s budget is perhaps of interest. ‘The following table summarizes Dr. Bush’s projected budget for the National Research Foundation and the National Science Foundation’s actual appropriation for its fifth operating year, fiscal year 1956; 1952 was the first year for which operating funds ($3.5 million) were appropriated for the Foundation by Congress. (millions of dollars) Bush’s Budget for
the National Re- NSF funds ?
Activity * search Foundation 5th Year 9th Year Ist Year 5th Year CFY 1956) CFY 1960)
Division of Medical Research .......... 5.0 20.0 —' —3 Division of National Defense............ 10.0 20.0 — — Division of Scientific Personnel and Education _....---2------2-----e nn 7.0 29.0 3.4 64.5 Division of Publications & Scientific Collaboration * __.....--...-.--.---2--------- 5 1.0 4 5.4 Division of Natural Sciences? __._.._.. 10.0 50.0 10.0 67.1
Other ® en — — 9 16.0 Total 222i ene 33.5 122.5 16.0 159.2
Administration -_......-...-----.---------------- 1.0 2.5 1.3 6.2
‘Except for the “other” category, these were the activities enumerated by Dr. Bush in his projected budget for the Foundation. ? Fiscal year 1956 data from The Budget of the United States, 1956, p. 159. In fiscal year 1960 the Foundation’s total adjusted appropriation amounts to $154.8 million. The total of $159.2 million, shown here, includes $4.4 million carried forward from fiscal year 1959. See part 3, Hearings before the Subcommittee on Appropriations, House of Representatives, Eighty-Sixth Congress, Second Session, Independent Offices Appropriations for 1961, for further details on program activities. * Funds administered by the Foundation’s Biological and Medical Sciences Division are
included in the total shown for the Division of Natural Sciences. This total also
includes grants for the social sciences.
* Scientific information program activities are administered in the Foundation by the Office of Science Information Service.
® Includes funds for facilities, other program activities, and all adjustments.
A glance at the chart indicates that by the end of the fifth year the Foundation was operating at a level fifty per cent lower than that recommended by Dr. Bush for the first year. By the fifth year the National Science Foundation was operating at about thirteen per cent of the level suggested by Dr. Bush for that year. By 1960, however, the Foundation’s appropriation for all activities was $159,200,000, almost ten times the 1956 level. XX1V
In order to understand the whole support situation it is necessary to look beyond a bare statistical comparison of Dr. Bush’s recommendations and the Foundation’s financial resources. As previously mentioned, Dr. Bush had visualized the Foundation as the sole support of basic research in the Govern-
ment. This has been far from the fact. As already noted, a number of agencies began actively to support basic research during the five years of legislative debate of the National Science Foundation bills. It is estimated that in 1956 the Federal Government obligated about $200 million for basic research. Of this amount somewhat less than $120 million went for basic research related to “national defense” (Department of Defense $72 million, and Atomic Energy Commission $45 million). “Twenty-six million dollars represents the total basic research reported by the National Institutes of Health for the year. The remainder of the $200 million is variously distributed among the Departments of Agriculture, Commerce, Interior, National Advisory Committee for Aeronautics, National Science Foundation, and the Smithsonian Institution. Rough estimates indicate that about $115 million of the $200 million total 1956 obligation for basic research went to nonprofit institutions, including colleges and universities, research centers, research institutions, hospitals, and
soon. [hus it would appear from these estimates that although the Foundation itself had not reached the projected level of basic research support proposed for its fifth year the Federal Government as a whole was providing the kind of basic research support visualized by Dr. Bush at a level somewhat higher than he projected. In the history of the National Science Foundation’s appropriations one is able to trace something of the public reaction to the international and national
political situation. A $15 million limit on the Foundation’s appropriations had been written into the law.” For its first year of operations, however, Congress appropriated to the Foundation only a small fraction of that amount —$3.5 million. Appropriations for the Foundation climbed slowly but steadily as Congress gained confidence in its operations and possibly also as a result of some dawning recognition on the part of the public of the importance of
basic research. By the fifth year, 1956, the appropriation was up to $16 million. In the summer of 1955 the Foundation published a National Research Council study, Soviet Professional Manpower, which drew sobering comparisons between the rates at which the U. S. and the U.S.S.R. are train-
ing scientific and technical manpower. One result of these findings was that the Congress sharply increased Foundation funds for education in the sciences. [he Foundation appropriation for fiscal year 1957, $40 million, more than doubled that of the preceding year. The next large increment came in 1959 when $130 million was appropriated in the wake of intense national concern over the Russian sputnik and all that it implied. Funds available for fiscal year 1960 total more than $159 million. What can be said in summation? The principal mechanisms recommended by Dr. Bush for the support and encouragement of basic research and education in the sciences have been realized. All branches of the Federal Government have recognized the importance of these matters to the public welfare, * This limitation was repealed by Act of Aug. 8, 1953 (67 Stat. 488). XXV
and support is available in a variety of forms from a variety of sources. ‘The universities, which have been the principal recipients of support, have expressed their approval of this diversity in the sources of support. Such diversity has meant more funds, greater flexibility, and the possibility of more than one approach. It is difficult to say what the optimum level of support should be except to recognize that at some point a finite limit is set by the number of competent investigators available. At the present time the ratio of basic research funds
to the over-all research and development funds of the Federal budget is something like seven per cent. Undoubtedly the ratio should be higher. We have the organization; to a considerable extent we have the dollars,
people, and facilities. Can we conclude, then, that the objectives of the Bush Report have been fully met? When one has been very close to the scene it is not possible to speak with complete objectivity and detachment. I think it can be said that the Government is doing well, both in the provision of funds and in the exercise of leadership. ‘There remains, however, one conspicuous difficulty to be overcome. It is that people generally still do not clearly understand and appreciate the importance of education and the importance of science as distinguished from technology. As Dr. Bush so trenchantly observed: The distinction between applied and pure research is not a hard and fast one, and industrial scientists may tackle specific problems from broad fundamental viewpoints. But it is important to emphasize that there is a perverse law governing research: under the pressure for immediate results, and unless deliberate policies are set up to guard against this, applied research invariably drives out pure. This moral is clear: It is pure research which deserves and requires special protection and specially assured support.
It must be admitted that as a people and a Nation we have not been properly appreciative of intellectual achievement. This awareness and appreciation is not something the Government can legislate into being. We must build it into our national consciousness through our educational system, and until we do, science and all other forms of intellectual activity will lack the firm foundation they require.
XXVI
LETTER OF TRANSMITTAL OFFICE OF SCIENTIFIC RESEARCH AND DEVELOPMENT
1530 P Street, NW. WasHINGTON 25, D. C.
Jury 5, 1945.
Dear Mr. Presipenr: In a letter dated November 17, 1944, President Roosevelt requested my recommendations on the following points:
(1) What can be done, consistent with military security, and with the prior approval of the military authorities, to make known to the world as soon as possible the contributions which have been made during our war effort to scientific knowledge?
(2) With particular reference to the war of science against disease, what can be done now to organize a program for continuing in the future the work which has been done in medicine and related sciences? (3) What can the Government do now and in the future to aid research activities by public and private organizations? (4) Can an effective program be proposed for discovering and developing scientific talent in American youth so that the continuing future of scientific research in this country may be assured on a level comparable to what has
been done during the war? .
It is clear from President Roosevelt’s letter that in speaking of science he
had in mind the natural sciences, including biology and medicine, and I have so interpreted his questions. Progress in other fields, such as the social
sciences and the humanities, is likewise important; but the program for science presented in my report warrants immediate attention.
In seeking answers to President Roosevelt's questions I have had the assistance of distinguished committees specially qualified to advise in respect
to these subjects. The committees have given these matters the serious attention they deserve; indeed, they have regarded this as an opportunity to participate in shaping the policy of the country with reference to scientific research. They have had many meetings and have submitted formal reports. I have been in close touch with the work of the committees and with their members throughout. I have examined all of the data they assembled and the suggestions they submitted on the points raised in President Roosevelt's letter. ]
Although the report which I submit herewith is my own, the facts, conclusions, and recommendations are based on the findings of the committees which have studied these questions. Since my report is necessarily brief, I am including as appendices the full reports of the committees. A single mechanism for implementing the recommendations of the several committees is essential. In proposing such a mechanism I have departed somewhat from the specific recommendations of the committees, but I have since been assured that the plan I am proposing is fully acceptable to the committee members.
The pioneer spirit is still vigorous within this Nation. Science offers a largely unexplored hinterland for the pioneer who has the tools for his task.
The rewards of such exploration both for the Nation and the individual are great. Scientific progress is one essential key to our security as a nation, to our better health, to more jobs, to a higher standard of living, and to our cultural progress. Respectfully yours,
(s) V. Busu, Director. THE PresIDENT OF THE UNITED STATES,
The White House, Washington, D. C.
2.
PRESIDENT ROOSEVELT’S LETTER THe Wuite House Washington, D. C. November 17, 1944
Dear Dr. Busu: The Office of Scientific Research and Development, of which you are the Director, represents a unique experiment of team-work and cooperation in coordinating scientific research and in applying existing scientific knowledge
to the solution of the technical problems paramount in war. Its work has been conducted in the utmost secrecy and carried on without public recognition of any kind; but its tangible results can be found in the communiques coming in from the battlefronts all over the world. Some day the full story of its achievements can be told. There is, however, no reason why the lessons to be found in this experiment cannot be profitably employed in times of peace. ‘The information, the techniques, and the research experience developed by the Office of Scientific
Research and Development and by the thousands of scientists in the universities and in private industry, should be used in the days of peace ahead for the improvement of the national health, the creation of new enterprises bringing new jobs, and the betterment of the national standard of living. It is with that objective in mind that I would like to have your recommendations on the following four major points: First: What can be done, consistent with military security, and with the prior approval of the military authorities, to make known to the world as soon as possible the contributions which have been made during our war effort to scientific knowledge? The diffusion of such knowledge should help us stimulate new enterprises, provide jobs for our returning servicemen and other workers, and make possible great strides for the improvement of the national well-being. Second: With particular reference to the war of science against disease,
what can be done now to organize a program for continuing in the future the work which has been done in medicine and related sciences? The fact that the annual deaths in this country from one or two diseases alone are far in excess of the total number of lives lost by us in battle during this war should make us conscious of the duty we owe future generations. Third: What can the Government do now and in the future to aid research activities by public and private organizations? The proper roles of public and of private research, and their interrelation, should be carefully considered. 3
Fourth: Can an effective program be proposed for discovering and developing scientific talent in American youth so that the continuing future of scientific research in this country may be assured on a level comparable to what has been done during the war? New frontiers of the mind are before us, and if they are pioneered with the same vision, boldness, and drive with which we have waged this war we can create a fuller and more fruitful employment and a fuller and more fruitful life. I hope that, after such consultation as you may deem advisable with your associates and others, you can let me have your considered judgment on these matters as soon as convenient—reporting on each when you are ready, rather than waiting for completion of your studies in all. Very sincerely yours,
(s) Franxzurin D. Roosevett. Dr. VANNEVAR Busou,
Office of Scientific Research and Development, Washington, D. C.
4
SUMMARY OF THE REPORT
Scientific Progress Is Essential Progress in the war against disease depends upon a flow of new scientific knowledge. New products, new industries, and more jobs require continuous
additions to knowledge of the laws of nature, and the application of that knowledge to practical purposes. Similarly, our defense against aggression demands new knowledge so that we can develop new and improved weapons. This essential, new knowledge can be obtained only through basic scientific research.
Science can be effective in the national welfare only as a member of a team, whether the conditions be peace or war. But without scientific progress no amount of achievement in other directions can insure our health, prosperity, and security as a nation in the modern world.
For the War Against Disease We have taken great strides in the war against disease. [he death rate for all diseases in the Army, including overseas forces, has been reduced from
14.1 per thousand in the last war to 0.6 per thousand in this war. In the last 40 years life expectancy has increased from 49 to 65 years, largely as a consequence of the reduction in the death rates of infants and children. But we are far from the goal. ‘The annual deaths from one or two diseases far exceed the total number of American lives lost in battle during this war. A large fraction of these deaths in our civilian population cut short the useful lives of our citizens. Approximately 7,000,000 persons in the United States are mentally ill and their care costs the public over $175,000,000 a year. Clearly much illness remains for which adequate means of prevention and cure are not yet known.
The responsibility for basic research in medicine and the underlying sciences, so essential to progress in the war against disease, falls primarily upon the medical schools and universities. Yet we find that the traditional sources of support for medical research in the medical schools and universities, largely endowment income, foundation grants, and private donations, are diminishing and there is no immediate prospect of a change in this trend. Meanwhile, the cost of medical research has been rising. If we are to main5
tain the progress in medicine which has marked the last 25 years, the Government should extend financial support to basic medical research in the medical schools and in universities.
For Our National Security The bitter and dangerous battle against the U-boat was a battle of scientific techniques—and our margin of success was dangerously small. ‘The new eyes which radar has supplied can sometimes be blinded by new scientific developments. V—2 was countered only by capture of the launching sites.
We cannot again rely on our allies to hold off the enemy while we struggle to catch up. There must be more—and more adequate—military research in peacetime. It is essential that the civilian scientists continue in peacetime some portion of those contributions to national security which they have made so effectively during the war. This can best be done through a civilian-controlled organization with close liaison with the Army and Navy, but with funds direct from Congress, and the clear power to initiate military research which will supplement and strengthen that carried on directly under the control of the Army and Navy.
And for the Public Welfare One of our hopes is that after the war there will be full employment. To reach that goal the full creative and productive energies of the American people must be released. To create more jobs we must make new and better and cheaper products. We want plenty of new, vigorous enterprises. But new products and processes are not born full-grown. They are founded on new principles and new conceptions which in turn result from basic scientic research. Basic scientific research is scientific capital. Moreover, we cannot any longer depend upon Europe as a major source of this scientific capital. Clearly, more and better scientific research is one essential to the achievement of our goal of full employment. How do we increase this scientific capital? First, we must have plenty of men and women trained in science, for upon them depends both the creation of new knowledge and its application to practical purposes. Second, we must strengthen the centers of basic research which are principally the colleges, universities, and research institutes. ‘These institutions provide the environment which is most conducive to the creation of new scientific knowledge and least under pressure for immediate, tangible results. With some notable exceptions, most research in industry and in Government involves applica-
tion of existing scientific knowledge to practical problems. It is only the colleges, universities, and a few research institutes that devote most of their research efforts to expanding the frontiers of knowledge. Expenditures for scientific research by industry and Government increased from $140,000,000 in 1930 to $309,000,000 in 1940. Those for the colleges and universities increased from $20,000,000 to $31,000,000, while those for 6
research institutes declined from $5,200,000 to $4,500,000 during the same period. If the colleges, universities, and research institutes are to meet the rapidly increasing demands of industry and Government for new scientific knowledge, their basic research should be strengthened by use of public funds.
For science to serve as a powerful factor in our national welfare, applied research both in Government and in industry must be vigorous. ’o improve the quality of scientific research within the Government, steps should be taken to modify the procedures for recruiting, classifying, and compensating scientific personnel in order to reduce the present handicap of governmental scientific bureaus in competing with industry and the universities for topgrade scientific talent. To provide coordination of the common scientific activities of these governmental agencies as to policies and budgets, a permanent Science Advisory Board should be created to advise the executive and legislative branches of Government on these matters. The most important ways in which the Government can promote industrial research are to increase the flow of new scientific knowledge through support of basic research, and to aid in the development of scientific talent. In addition, the Government should provide suitable incentives to industry to con-
duct research (a) by clarification of present uncertainties in the Internal Revenue Code in regard to the deductibility of research and development expenditures as current charges against net income, and (b) by strengthening the patent system so as to eliminate uncertainties which now bear heavily on small industries and so as to prevent abuses which reflect discredit upon
a basically sound system. In addition, ways should be found to cause the benefits of basic research to reach industries which do not now utilize new scientific knowledge.
We Must Renew Our Scientific Talent The responsibility for the creation of new scientific knowledge—and for most of its application—rests on that small body of men and women who understand the fundamental laws of nature and are skilled in the techniques of scientific research. We shall have rapid or slow advance on any scientific frontier depending on the number of highly qualified and trained scientists exploring it. The deficit of science and technology students who, but for the war, would have received bachelor’s degrees is about 150,000. It is estimated that the deficit of those obtaining advanced degrees in these fields will amount in 1955 to about 17,000—for it takes at least 6 years from college entry to achieve a doctor’s degree or its equivalent in science or engineering. The real ceiling on our productivity of new scientific knowledge and its application in the war against disease, and the development of new products and new industries, is the number of trained scientists available. The training of a scientist is a long and expensive process. Studies clearly show that there are talented individuals in every part of the population, but with few exceptions, those without the means of buying higher education 7
go without it. If ability, and not the circumstance of family fortune, deter-
mines who shall receive higher education in science, then we shall be assured of constantly improving quality at every level of scientific activity.
The Government should provide a reasonable number of undergraduate scholarships and graduate fellowships in order to develop scientific talent in American youth. The plans should be designed to attract into science only that proportion of youthful talent appropriate to the needs of science in relation to the other needs of the Nation for high abilities.
Including Those in Uniform The most immediate prospect of making up the deficit in scientific personnel is to develop the scientific talent in the generation now in uniform. Even if we should start now to train the current crop of high-school graduates none would complete graduate studies before 1951. ‘The Armed Services
should comb their records for men who, prior to or during the war, have given evidence of talent for science, and make prompt arrangements, consistent with current discharge plans, for ordering those who remain in uniform, as soon as militarily possible, to duty at institutions here and overseas where they can continue their scientific education. Moreover, the Services should see that those who study overseas have the benefit of the latest scientific information resulting from research during the war. The Lid Must Be Lifted While most of the war research has involved the application of existing scientific knowledge to the problems of war, rather than basic research, there has been accumulated a vast amount of information relating to the application of science to particular problems. Much of this can be used by industry. It is also needed for teaching in the colleges and universities here and in the
Armed Forces Institutes overseas. Some of this information must remain secret, but most of it should be made public as soon as there is ground for belief that the enemy will not be able to turn it against us in this war. To select that portion which should be made public, to coordinate its release,
and definitely to encourage its publication, a Board composed of Army, Navy, and civilian scientific members should be promptly established.
A Program for Action The Government should accept new responsibilities for promoting the flow of new scientific knowledge and the development of scientific talent in our youth. These responsibilities are the proper concern of the Government, for they vitally affect our health, our jobs, and our national security. It is in
keeping also with basic United States policy that the Government should foster the opening of new frontiers and this is the modern way to do it. For 8
many years the Government has wisely supported research in the agricultural colleges and the benefits have been great. The time has come when such support should be extended to other fields. The effective discharge of these new responsibilities will require the full attention of some over-all agency devoted to that purpose. There is not now in the permanent governmental structure receiving its funds from Congress an agency adapted to supplementing the support of basic research in the colleges, universities, and research institutes, both in medicine and the natural sciences, adapted to supporting research on new weapons for both Services, or adapted to administering a program of science scholarships and fellowships.
Therefore I recommend that a new agency for these purposes be established. Such an agency should be composed of persons of broad interest and experience, having an understanding of the peculiarities of scientific research and scientific education. It should have stability of funds so that long-range programs may be undertaken. It should recognize that freedom of inquiry
must be preserved and should leave internal control of policy, personnel, and the method and scope of research to the institutions in which it is carried
on. It should be fully responsible to the President and through him to the Congress for its program. Early action on these recommendations is imperative if this Nation is to
meet the challenge of science in the crucial years ahead. On the wisdom with which we bring science to bear in the war against disease, in the crea-
tion of new industries, and in the strengthening of our Armed Forces depends in large measure our future as a nation.
9
Part One
INTRODUCTION Scientific Progress Is Essential We all know how much the new drug, penicillin, has meant to our grievously wounded men on the grim battlefronts of this war-—the countless lives it has saved—the incalculable suffering which its use has prevented. Science and the great practical genius of this Nation made this achievement possible.
Some of us know the vital role which radar has played in bringing the Allied Nations to victory over Nazi Germany and in driving the Japanese steadily back from their island bastions. Again it was painstaking scientific research over many years that made radar possible. What we often forget are the millions of pay envelopes on a peacetime Saturday night which are filled because new products and new industries have provided jobs for countless Americans. Science made that possible, too. In 1939 millions of people were employed in industries which did not even
exist at the close of the last war—radio, air conditioning, rayon and other synthetic fibers, and plastics are examples of the products of these industries. But these things do not mark the end of progress—they are but the beginning if we make full use of our scientific resources. New manufacturing industries can be started and many older industries greatly strengthened and expanded if we continue to study nature’s laws and apply new knowledge to practical purposes. Great advances in agriculture are also based upon scientific research. Plants which are more resistant to disease and are adapted to short growing seasons, the prevention and cure of livestock diseases, the control of our insect enemies, better fertilizers, and improved agricultural practices, all stem from painstaking scientific research.
Advances in science when put to practical use mean more jobs, higher wages, shorter hours, more abundant crops, more leisure for recreation, for study, for learning how to live without the deadening drudgery which has been the burden of the common man for ages past. Advances in science will also bring higher standards of living, will lead to the prevention or cure of diseases, will promote conservation of our limited national resources, and will assure means of defense against aggression. But to achieve these objectives— to secure a high level of employment, to maintain a position of world leadership—the flow of new scientific knowledge must be both continuous and substantial.
Our population increased from 75 million to 130 million between 1900 10
and 1940. In some countries comparable increases have been accompanied
by famine. In this country the increase has been accompanied by more abundant food supply, better living, more leisure, longer life, and better health. This is, largely, the product of three factors—the free play of initiative of a vigorous people under democracy, the heritage of great natural wealth, and the advance of science and its application. Science, by itself, provides no panacea for individual, social, and economic ills. It can be effective in the national welfare only as a member of a team, whether the conditions be peace or war. But without scientific progress no amount of achievement in other directions can insure our health, prosperity, and security as a nation in the modern world.
Science Is a Proper Concern of Government It has been basic United States policy that Government should foster the opening of new frontiers. It opened the seas to clipper ships and furnished land for pioneers. Although these frontiers have more or less disappeared, the frontier of science remains. It is in keeping with the American tradition —one which has made the United States great—that new frontiers shall be made accessible for development by all American citizens. Moreover, since health, well-being, and security are proper concerns of Government, scientific progress is, and must be, of vital interest to Government. Without scientific progress the national health would deteriorate; without scientific progress we could not hope for improvement in our standard of living or for an increased number of jobs for our citizens; and without scientific progress we could not have maintained our liberties against tyranny.
Government Relations to Science—Past and Future From early days the Government has taken an active interest in scientific matters. During the nineteenth century the Coast and Geodetic Survey, the Naval Observatory, the Department of Agriculture, and the Geological Survey were established. Through the Land Grant College Acts the Government has supported research in state institutions for more than 80 years on a gradually increasing scale. Since 1900 a large number of scientific agencies have been established within the Federal Government, until in 1939 they numbered more than 40. Much of the scientific research done by Government agencies is intermediate in character between the two types of work commonly referred to as basic and applied research. Almost all Government scientific work has ultimate practical objectives but, in many fields of broad national concern, it commonly involves long-tegm investigation of a fundamental nature. Generally speaking, the scientific agencies of Government are not so concerned with immediate practical objectives as are the laboratories of industry nor,
on the other hand, are they as free to explore any natural phenomena without regard to possible economic applications as are the educational and private research institutions. Government scientific agencies have splendid records of achievement, but they are limited in function. 1]
We have no national policy for science. The Government has only begun to utilize science in the Nation’s welfare. There is no body within the Government charged with formulating or executing a national science policy. There are no standing committees of the Congress devoted to this important subject. Science has been in the wings. It should be brought to the center of the stage—for in it lies much of our hope for the future. There are areas of science in which the public interest is acute but which are likely to be cultivated inadequately if left without more support than will come from private sources. These areas—such as research on military problems, agriculture, housing, public health, certain medical, research, and research involving expensive capital facilities beyond the capacity of private institutions—should be advanced by active Government support. To date, with the exception of the intensive war research conducted by the Office of Scientific Research and Development, such support has been meager and intermittent. For reasons presented in this report we are entering a period when science needs and deserves increased support from public funds.
Freedom of Inquiry Must Be Preserved The publicly and privately supported colleges, universities, and research
institutes are the centers of basic research. They are the wellsprings of knowledge and understanding. As long as they are vigorous and healthy and their scientists are free to pursue the truth wherever it may lead, there will be a flow of new scientific knowledge to those who can apply it to practical problems in Government, in industry, or elsewhere. Many of the lessons learned in the war-time application of science under Government can be profitably applied in peace. The Government is peculiarly fitted to perform certain functions, such as the coordination and support of broad programs on problems of great national importance. But we must proceed with caution in carrying over the methods which work in wartime to the very different conditions of peace. We must remove the rigid controls
which we have had to impose, and recover freedom of inquiry and that healthy competitive scientific spirit so necessary for expansion of the frontiers of scientific knowledge.
Scientific progress on a broad front results from the free play of free intellects, working on subjects of their own choice, in the manner dictated by their curiosity for exploration of the unknown. Freedom of inquiry must be preserved under any plan for Government support of science in accord-
ance with the Five Fundamentals listed on page 32. :
The study of the momentous questions presented in President Roosevelt's
letter has been made by able committees working diligently. his report presents conclusions and recommendations based upon the studies of these committees which appear in full as the appendices. Only in the creation of one over-all mechanism rather than several does this report depart from the specific recommendations of the committees. The members of the committees have reviewed the recommendations in regard to the single mechanism and have found this plan thoroughly acceptable. 12
Part Two
THE WAR AGAINST DISHASE In War The death rate for all diseases in the Army, including the overseas forces, has been reduced from 14.1 per thousand in the last war to 0.6 per thousand in this war. Such ravaging diseases as yellow fever, dysentery, typhus, tetanus, pneumonia, and meningitis have been all but conquered by penicillin and the sulfa drugs, the insecticide DDT, better vaccines, and improved hygienic measures. Malaria has been controlled. ‘There has been dramatic progress in surgery. The striking advances in medicine during the war have been possible only because we had a large backlog of scientific data accumulated through basic research in many scientific fields in the years before the war.
In Peace In the last 40 years life expectancy in the United States has increased from 49 to 65 years largely as a consequence of the reduction in the death rates of infants and children; in the last 20 years the death rate from the diseases of childhood has been reduced 87 percent. Diabetes has been brought under control by insulin, pernicious anemia by liver extracts; and. the once widespread deficiency diseases have been much reduced, even in the lowest income groups, by accessory food factors and improvement of diet. Notable advances have been made in the early diagnosis of cancer, and in the surgical and radiation treatment of the disease. These results have been achieved through a great amount of basic research in medicine and the preclinical sciences, and by the dissemination of this new scientific knowledge through the physicians and medical services and
public health agencies of the country. In this cooperative endeavor the pharmaceutical industry has played an important role, especially during the
war. All of the medical and public health groups share credit for these achievements; they form interdependent members of a team. Progress in combating disease depends upon an expanding body of new scientific knowledge. 13
Unsolved Problems As President Roosevelt observed, the annual deaths from one or two diseases are far in excess of the total number of American lives lost in battle during this war. A large fraction of these deaths in our civilian population cut short the useful lives of our citizens. This is our present position despite
the fact that in the last three decades notable progress has been made in civilian medicine. The reduction in death rate from diseases of childhood has shifted the emphasis to the middle and old age groups, particularly to the malignant diseases and the degenerative processes prominent in later life. Cardiovascular disease, including chronic disease of the kidneys, arteriosclerosis, and cerebral hemorrhage, now account for 45 percent of the deaths in the United States. Second are the infectious diseases, and third is cancer. Added to these are many maladies (for example, the common cold, arthritis, asthma and hay fever, peptic ulcer.) which, though infrequently fatal, cause incalculable disability. Another aspect of the changing emphasis is the increase of mental diseases.
Approximately 7 million persons in the United States are mentally ill; more than one-third of the hospital beds are occupied by such persons, at a cost of $175 million a year. Each year 125,000 new mental cases are hospitalized. Notwithstanding great progress in prolonging the span of life and in relief of suffering, much illness remains for which adequate means of prevention
and cure are not yet known. While additional physicians, hospitals, and health programs are needed, their full usefulness cannot be attained unless we enlarge our knowledge of the human organism and the nature of disease. Any extension of medical facilities must be accompanied by an expanded program of medical training and research.
Broad and Basic Studies Needed Discoveries pertinent to medical progress have often come from remote and unexpected sources, and it is certain that this will be true in the future. It is wholly probable that progress in the treatment of cardiovascular disease, renal disease, cancer, and similar refractory diseases will be made as the result of fundamental discoveries in subjects unrelated to those diseases, and perhaps entirely unexpected by the investigator. Further progress requires that the entire front of medicine and the underlying sciences of chemistry, physics, anatomy, biochemistry, physiology, pharmacology, bacteriology, pathology, parasitology, etc., be broadly developed. Progress in the war against disease results from discoveries in remote and unexpected fields of medicine and the underlying sciences.
Coordinated Attack on Special Problems Penicillin reached our troops in time to save countless lives because the Government coordinated and supported the program of research and develop-
ment on the drug. Ihe development moved from the early laboratory stage to large scale production and use in a fraction of the time it would have 14
taken without such leadership. The search for better anti-malarials, which proceeded at a moderate tempo for many years, has been accelerated enormously by Government support during the war. Other examples can be cited in which medical progress has been similarly advanced. In achieving these results, the Government has provided over-all coordination and support; it
has not dictated how the work should be done within any cooperating institution. Discovery of new therapeutic agents and methods usually results from basic
studies in medicine and the underlying sciences. The development of such materials and methods to the point at which they become available-to medical practitioners requires teamwork involving the medical schools, the science departments of universities, Government and the pharmaceutical industry. Government initiative, support, and coordination can be very effective in this development phase.
Government initiative and support for the development of newly discovered therapeutic materials and methods can reduce the time required to bring the benefits to the public.
Action is Necessary The primary place for medical research is in the medical schools and universities. In some cases coordinated direct attack on special problems may be made by teams of investigators, supplementing similar attacks carried on by the Army, Navy, Public Health Service, and other organizations. Apart from teaching, however, the primary obligation of the medical schools and universities is to continue the traditional function of such institutions, namely, to
provide the individual worker with an opportunity for free, untrammeled study of nature, in the directions and by the methods suggested by his interests, curiosity, and imagination. The history of medical science teaches clearly
the supreme importance of affording the prepared mind complete freedom for the exercise of initiative. It is the special province of the medical schools and universities to foster medical research in this way—a duty which cannot be shifted to Government agencies, industrial organizations, or to any other institutions. Where clinical investigations of the human body are required, the medical schools are in a unique position, because of their close relationship to teaching hospitals, to integrate such investigations with the work of the departments of
preclinical science, and to impart new knowledge to physicians in training. At the same time, the teaching hospitals are especially well qualified to carry on medical research because of their close connection with the medical schools,
on which they depend for staff and supervision. Between World War I and World War II the United States overtook all other nations in medical research and assumed a position of world leadership. To a considerable extent this progress reflected the liberal financial support from university endowment income, gifts from individuals, and foundation grants in the 20’s. The growth of research departments in medical schools has been very uneven, however, and in consequence most of the important work has been done in a few large schools. This should be corrected by build15
ing up the weaker institutions, especially in regions which now have no strong medical research activities. The traditional sources of support for medical research, largely endowment income, foundation grants, and private donations, are diminishing, and there
is no immediate prospect of a change in this trend. Meanwhile, research costs have steadily risen. More elaborate and expensive equipment is required, supplies are more costly, and the wages of assistants are higher. Industry is only to a limited extent a source of funds for basic medical research.
It is clear that if we are to maintain the progress in medicine which has marked the last 25 years, the Government should extend financial support to basic medical research in the medical schools and in the universities, through grants both for research and for fellowships. The amount which can be effectively spent in the first year should not exceed 5 million dollars. After a program is under way perhaps 20 million dollars a year can be spent effectively.
16
Part Three
SCIHNCH AND THE PUBLIC WELFARE Relation to National Security In this war it has become clear beyond all doubt that scientific research is
absolutely essential to national security. The bitter and dangerous battle against the U-boat was a battle of scientific techniques—and our margin of success was dangerously small. The new eyes which radar supplied to our fighting forces quickly evoked the development of scientific countermeasures
which could often blind them. This again represents the ever continuing battle of techniques. The V-—1 attack on London was finally defeated by three devices developed during this war and used superbly in the field. V—2 was countered only by capture of the launching sites. The Secretaries of War and Navy recently stated in a joint letter to the National Academy of Sciences: This war emphasizes three facts of supreme importance to national security: (1) Powerful new tactics of defense and offense are developed around new weapons created by scientific and engineering research; (2) the competitive time element in developing those weapons and tactics may be decisive; (3) war is increasingly total war, in which the armed services must be supplemented by active participation of every element of civilian population. To insure continued preparedness along farsighted technical lines, the research scien-
tists of the country must be called upon to continue in peacetime some substantial portion of those types of contribution to national security which they have made so effectively during the stress of the present war * * *.
There must be more—and more adequate—military research during peace-
time. We cannot again rely on our allies to hold off the enemy while we struggle to catch up. Further, it is clear that only the Government can undertake military research; for it must be carried on in secret, much of it has no
commercial value, and it is expensive. The obligation of Government to support research on military problems is inescapable. Modern war requires the use of the most advanced scientific techniques. Many of the leaders in the development of radar are scientists who before the war had been exploring the nucleus of the atom. While there must be increased emphasis on science in the future training of officers for both the Army and Navy, such men cannot be expected to be specialists in scientific \7
research. Therefore, a professional partnership between the officers in the Services and civilian scientists is needed. The Army and Navy should continue to carry on research and development
on the improvement of current weapons. For many years the National Advisory Committee for Aeronautics has supplemented the work of the Army
and Navy by conducting basic research on the problems of flight. There should now be permanent civilian activity to supplement the research work of the Services in other scientific fields so as to carry on in time of peace some part of the activities of the emergency wartime Office of Scientific Research and Development. Military preparedness requires a permanent independent, civilian-controlled
organization, having close liaison with the Army and Navy, but with funds directly from Congress and with the clear power to initiate military research
which will supplement and strengthen that carried on directly under the control of the Army and Navy.
Science and Jobs One of our hopes is that after the war there will be full employment, and that the production of goods and services will serve to raise our standard of living. We do not know yet how we shall reach that goal, but it is certain that it can be achieved only by releasing the full creative and productive energies of the American people.
Surely we will not get there by standing still, merely by making the same things we made before and selling them at the same or higher prices. We will not get ahead in international trade unless we offer new and more attractive and cheaper products.
Where will these new products come from? How will we find ways to make better products at lower cost? The answer is clear. There must be a stream of new scientific knowledge to turn the wheels of private and public enterprise. [here must be plenty of men and women trained in science and technology for upon them depend both the creation of new knowledge and its application to practical purposes.
More and better scientific research is essential to the achievement of our goal of full employment.
The Importance of Basic Research Basic research is performed without thought of practical ends. It results in general knowledge and an understanding of nature and its laws. This general knowledge provides the means of answering a large number of important practical problems, though it may not give a complete specific answer
to any one of them. The function of applied research is to provide such complete answers. The scientist doing basic research may not be at all inter-
ested in the practical applications of his work, yet the further progress of industrial development would eventually stagnate if basic scientific research were long neglected. One of the peculiarities of basic science is the variety of paths which lead 1g
to productive advance. Many of the most important discoveries have come as
a result of experiments undertaken with very different purposes in mind. Statistically it is certain that important and highly useful discoveries will result
from some fraction of the undertakings in basic science; but the results of any one particular investigation cannot be predicted with accuracy. Basic research leads to new knowledge. It provides scientific capital. It creates the fund from which the practical applications of knowledge must be drawn. New products and new processes do not appear full-grown. They
are founded on new principles and new conceptions, which in turn are painstakingly developed by research in the purest realms of science. Today, it is truer than ever that basic research is the pacemaker of technological progress. In the nineteenth century, Yankee mechanical ingenuity,
building largely upon the basic discoveries of European scientists, could greatly advance the technical arts. Now the situation is different. A nation which depends upon others for its new basic scientific knowledge
will be slow in its industrial progress and weak in its competitive position in world trade, regardless of its mechanical skill.
Centers of Basic Research Publicly and privately supported colleges and universities and the endowed
research institutes must furnish both the new scientific knowledge and the trained research workers. These institutions are uniquely qualified by tradition and by their special characteristics to carry on basic research. ‘hey are charged with the responsibility of conserving the knowledge accumulated by the past, imparting that knowledge to students, and contributing new knowledge of all kinds. It is chiefly in these institutions that scientists may work in an atmosphere which is relatively free from the adverse pressure of convention, prejudice, or commercial necessity. At their best they provide the scientific worker with a strong sense of solidarity and security, as well as a substantial degree of personal intellectual freedom. All of these factors are of great importance in the development of new knowledge, since much of new knowledge is certain to arouse opposition because of its tendency to
challenge current beliefs or practice. :
Industry is generally inhibited by preconceived goals, by its own clearly
defined standards, and by the constant pressure of commercial necessity. Satisfactory progress in basic science seldom occurs under conditions prevailing in the normal industrial laboratory. here are some notable exceptions, it is true, but even in such cases it is rarely possible to match the universities in respect to the freedom which is so important to scientific discovery. To serve effectively as the centers of basic research these institutions must
be strong and healthy. They must attract our best scientists as teachers and investigators. They must offer research opportunities and sufhcient compensation to enable them to compete with industry and government for the cream of scientific talent.
During the past 25 years there has been a great increase in industrial research involving the application of scientific knowledge to a multitude of practical purposes—thus providing new products, new industries, new investment opportunities, and millions of jobs. During the same period research 19
within Government—again largely applied research—has also been greatly
expanded. In the decade from 1930 to 1940 expenditures for industrial research increased from $116,000,000 to $240,000,000 and those for scientific research in Government rose from $24,000,000 to $69,000,000. During the same period expenditures for scientific research in the colleges and universities increased from $20,000,000 to $31,000,000, while those in the endowed
research institutes declined from $5,200,000 to $4,500,000. ‘These are the
best estimates available. The figures have been taken from a variety of sources and arbitrary definitions have necessarily been applied, but it is believed that they may be accepted as indicating the following trends: (a) Expenditures for scientific research by industry and Government— almost entirely applied research—have more than doubled between 1930 and 1940. Whereas in 1930 they were six times as large as the research expenditures of the colleges, universities, and research institutes, by 1940 they were nearly ten times as large. (b) While expenditures for scientific research in the colleges and universities increased by one-half during this period, those for the endowed research institutes have slowly declined. If the colleges, universities, and research institutes are to meet the rapidly increasing demands of industry and Government for new scientific knowledge,
their basic research should be strengthened by use of public funds.
Research Within the Government Although there are some notable exceptions, most research conducted within governmental laboratories is of an applied nature. This has always been true and is likely to remain so. Hence Government, like industry, is dependent upon the colleges, universities, and research institutes to expand the basic scientific frontiers and to furnish trained scientific investigators. Research within the Government represents an important part of our total research activity and needs to be strengthened and expanded after the war. Such expansion should be directed to fields of inquiry and service which are of public importance and are not adequately carried on by private organizations.
The most important single factor in scientific and technical work is the quality of personnel employed. The procedures currently followed within the Government for recruiting, classifying and compensating such personnel place the Government under a severe handicap in competing with industry and the universities for first-class scientific talent. Steps should be taken to reduce that handicap. In the Government the arrangement whereby the numerous scientific agencies form parts of large departments has both advantages and disadvantages. But the present pattern is firmly established and there is much to be said for it. There is, however, a very real need for some measure of coordination of the common scientific activities of these agencies, both as to policies
and budgets, and at present no such means exist. A permanent Science Advisory Board should be created to consult with 20
these scientific bureaus and to advise the executive and legislative branches
of Government as to the policies and budgets of Government agencies engaged in scientific research. This board should be composed of disinterested scientists who have no connection with the affairs of any Government agency.
Industrial Research The simplest and most effective way in which the Government can strengthen industrial research is to support basic research and to develop scientific talent.
The benefits of basic research do not reach all industries equally or at the same speed. Some small enterprises never receive any of the benefits. It has been suggested that the benefits might be better utilized if “research clinics” for such enterprises were to be established. Businessmen would thus
be able to make more use of research than they now do. This proposal is certainly worthy of further study. One of the most important factors affecting the amount of industrial research is the income-tax law. Government action in respect to this subject will affect the rate of technical progress in industry. Uncertainties as to the attitude of the Bureau of Internal Revenue regarding the deduction of research and development expenses are a deterrent to research expenditure. These uncertainties arise from lack of clarity of the tax law as to the proper
treatment of such costs. The Internal Revenue Code should be amended to remove present uncertainties in regard to the deductibility of research and development expenditures as current charges against net income. Research is also affected by the patent laws. They stimulate new invention and they make it possible for new industries to be built around new devices or new processes. These industries generate new jobs and new products, all of which contribute to the welfare and the strength of the country.
Yet, uncertainties in the operation of the patent laws have impaired the ability of small industries to translate new ideas into processes and products
of value to the Nation. These uncertainties are, in part, attributable to the difficulties and expense incident to the operation of the patent system as it presently exists. These uncertainties are also attributable to the existence of certain abuses which have appeared in the use of patents. The abuses should be corrected. They have led to extravagantly critical attacks which tend to discredit a basically sound system. It is important that the patent system continue to serve the country in the manner intended by the Constitution, for it has been a vital element in the industrial vigor which has distinguished this Nation. The National Patent Planning Commission has reported on this subject. In addition, a detailed study, with recommendations concerning the extent to which modifications should be made in our patent laws is currently being made under the leadership of the Secretary of Commerce. It is recommended,
therefore, that specific action with regard to the patent laws be withheld pending the submission of the report devoted exclusively to that subject. 21
International Exchange of Scientific Information International exchange of scientific information is of growing importance. Increasing specialization of science will make it more important than ever that scientists in this country keep continually abreast of developments abroad. In addition, a flow of scientific information constitutes one facet of general international accord which should be cultivated. The Government can accomplish significant results in several ways: by aiding in the arrangement of international science congresses, in the official accrediting of American scientists to such gatherings, in the official reception of foreign scientists of standing in this country, in making possible a rapid flow of technical information, including translation service, and possibly in
the provision of international fellowships. Private foundations and other groups partially fulfill some of these functions at present, but their scope is incomplete and inadequate. The Government should take an active role in promoting the international flow of scientific information.
The Special Need for Federal Support We can no longer count on ravaged Europe as a source of fundamental knowledge. In the past we have devoted much of our best efforts to the application of such knowledge which has been discovered abroad. In the future we must pay increased attention to discovering this knowledge for ourselves particularly since the scientific applications of the future will be more than ever dependent upon such basic knowledge. New impetus must be given to research in our country. Such new impetus can come promptly only from the Government. Expenditures for research in the colleges, universities, and research institutes will otherwise not be able to meet the additional demands of increased public need for research.
Further, we cannot expect industry adequately to fill the gap. Industry will fully rise to the challenge of applying new knowledge to new products. The commercial incentive can be relied upon for that. But basic research is
essentially noncommercial in nature. It will not receive the attention it requires if left to industry.
For many years the Government has wisely supported research in the agricultural colleges and the benefits have been great. The time has come when such support should be extended to other fields. In providing Government support, however, we must endeavor to preserve as far as possible the private support of research both in industry and in the colleges, universities, and research institutes. These private sources should continue to carry their share of the financial burden.
The Cost of a Program It is estimated that an adequate program for Federal support of basic research in the colleges, universities, and research institutes and for financing important applied research in the public interest, will cost about 10 million dollars at the outset and may rise to about 50 million dollars annually when
fully underway at the end of perhaps 5 years. 22
Part Four
Nature of the Problem The responsibility for the creation of new scientific knowledge rests on that small body of men and women who understand the fundamental laws of nature and are skilled in the techniques of scientific research. While there will always be the rare individual who will rise to the top without beneht of formal education and training, he is the exception and even he might make a more notable contribution if he had the benefit of the best education we have to offer. I cannot improve on President Conant’s statement that: “* * * in every section of the entire area where the word science may properly be applied, the limiting factor is a human one. We shall have rapid or slow advance in
this direction or in that depending on the number of really first-class men who are
engaged in the work in question. * * * So in the last analysis, the future of science in this country will be determined by our basic educational policy.”
A Note of Warning It would be folly to set up a program under which research in the natural
sciences and medicine was expanded at the cost of the social sciences, humanities, and other studies so essential to national well-being. ‘This point has been well stated by the Moe Committee as follows: “As citizens, as good citizens, we therefore think that we must have in mind while examining the question before us—the discovery and development of scientific talent— the needs of the whole national welfare. We could not suggest to you a program which would syphon into science and technology a disproportionately large share of the Nation’s
%*%*%*%
highest abilities, without doing harm to the Nation, nor, indeed, without crippling science. * * * Science cannot live by and unto itself alone.”
“The uses to which high ability in youth can be put are various and, to a large extent, are determined by social pressures and rewards. When aided by selective devices
for picking out scientifically talented youth, it is clear that large sums of money for scholarships and fellowships and monetary and other rewards in disproportionate amounts might draw into science too large a percentage of the Nation’s high ability, with a result highly detrimental to the Nation and to science. Plans for the discovery and development
of scientific talent must be related to the other needs of society for high ability * * *. There is never enough ability at high levels to satisfy all the needs of the Nation; we would not seek to draw into science any more of it than science’s proportionate share.” 23
The Wartime Deficit Among the young men and women qualified to take up scientific work, since 1940 there have been few students over 18, except some in medicine and engineering in Army and Navy programs and a few 4-F’s, who have followed an integrated scientific course of studies. Neither our allies nor, so far as we know, our enemies have done anything so radical as thus to suspend almost completely their educational activities in scientific pursuits during the war period. Two great principles have guided us in this country as we have turned
our full efforts to war. First, the sound democratic principle that there should be no favored classes or special privilege in a time of peril, that all should be ready to sacrifice equally; second, the tenet that every man should serve in the capacity in which his talents and experience can best be applied for the prosecution of the war effort. In general we have held these principles well in balance. In my opinion, however, we have drawn too heavily for nonscientific pur-
poses upon the great natural resource which resides in our trained young scientists and engineers. For the general good of the country too many such men have gone into uniform, and their talents have not always been fully utilized. With the exception of those men engaged in war research, all physically fit students at graduate level have been taken into the armed forces. Those ready for college training in the sciences have not been permitted to enter upon that training. There is thus an accumulating deficit of trained research personnel which will continue for many years. The deficit of science and technology students who, but for the war, would have received bachelor’s degrees is about 150,000. The deficit of those holding advanced degrees—that is, young scholars trained ta the point where they are capable of carrying on original work—has been estimated as amounting to about 17,000 by 1955 in chemistry, engineering, geology, mathematics, physics, psychology, and the biological sciences. With mounting demands for scientists both for teaching and for research,
we will enter the postwar period with a serious deficit in our trained scientific personnel.
Improve the Quality Confronted with these deficits, we are compelled to look to the use of our
basic human resources and formulate a program which will assure their conservation and effective development. The committee advising me on scientific personnel has stated the following principle which should guide our planning: “If we were all-knowing and all-wise we might, but we think probably not, write you a plan whereby there might be selected for training, which they otherwise would not get, those who, 20 years hence, would be scientific leaders, and we might not bother about any lesser manifestations of scientific ability. But in the present state of knowledge a plan cannot be made which will select, and assist, only those young men and women who will give the top future leadership to science. ‘To get top leadership there must be a relatively large base of high ability selected for development and then successive skimmings of the cream of ability at successive times and at higher levels. No one can select
24
from the bottom those who will be the leaders at the top because unmeasured and unknown factors enter into scientific, or any, leadership. There are brains and character, strength and health, happiness and spiritual vitality, interest and motivation, and no one knows what else, that must needs enter into this supra-mathematical calculus. “We think we probably would not, even if we were all-wise and all-knowing, write
you a plan whereby you would be assured of scientific leadership at one stroke. We think as we think because we are not interested in setting up an elect. We think it much the best plan, in this constitutional Republic, that opportunity be held out to all kinds and conditions of men whereby they can better themselves. This is the American way; this is the way the United States has become what it is. We think it very important that circumstances be such that there be no ceilings, other than ability itself, to intellectual ambition. We think it very important that every boy and girl shall know that, if he shows that he has what it takes, the sky is the limit. Even if it be shown subsequently that he has not what it takes to go to the top, he will go farther than he would otherwise
go if there had. been a ceiling beyond which he always knew he could not aspire. “By proceeding from point to point and taking stock on the way, by giving further opportunity to those who show themselves worthy of further opportunity, by giving the most opportunity to those who show themselves continually developing—this is the way we propose. This is the American way: a man works for what he gets.”
Remove the Barriers Higher education in this country is largely for those who have the means. If those who have the means coincided entirely with those persons who have the talent we should not be squandering a part of our higher education on
those undeserving of it, nor neglecting great talent among those who fail to attend college for economic reasons. There are talented individuals in every segment of the population, but with few exceptions those without the means of buying higher education go without it. Here is a tremendous waste of the greatest resource of a nation—the intelligence of its citizens. If ability, and not the circumstance of family fortune, is made to determine who shall receive higher education in science, then we shall be assured of constantly improving quality at every level of scientific activity.
The Generation in Uniform Must Not Be Lost We have a serious deficit in scientific personnel partly because the men who would have studied science in the colleges and universities have been serving in the Armed Forces. Many had begun their studies before they went
to war. Others with capacity for scientific education went to war after finishing high school. The most immediate prospect of making up some of the deficit in scientific personnel is by salvaging scientific talent from the generation in uniform. For even if we should start now to train the current crop of high school graduates, it would be 1951 before they would complete graduate studies and be prepared for effective scientific research. This fact underlines the necessity of salvaging potential scientists in uniform. The Armed Services should comb their records for men who, prior to or during the war, have given evidence of talent for science, and make prompt arrangements, consistent with current discharge plans, for ordering those who remain in uniform as soon as militarily possible to duty at institutions 25
here and overseas where they can continue their scientific education. Moreover, they should see that those who study overseas have the benefit of the latest scientific developments.
A Program The country may be proud of the fact that 95 percent of boys and girls of fifth grade age are enrolled in school, but the drop in enrollment after the fifth grade is less satisfying. For every 1,000 students in the fifth grade, 600 are lost to education before the end of high school, and all but 72 have ceased formal education before completion of college. While we are concerned primarily with methods of selecting and educating high school graduates at the college and higher levels, we cannot be complacent about the loss of potential talent which is inherent in the present situation. Students drop out of school, college, and graduate school, or do not get that far, for a variety of reasons: they cannot afford to go on; schools and colleges providing courses equal to their capacity are not available locally; business and industry recruit many of the most promising before they have finished the training of which they are capable. These reasons apply with particular force to science: the road is long and expensive; it extends at least 6 years beyond high school; the percentage of science students who can obtain first-rate training in institutions near home is small. Improvement in the teaching of science is imperative, for students of latent scientific ability are particularly vulnerable to high school teaching which fails to awaken interest or to provide adequate instruction. To enlarge the group of specially qualified men and women it is necessary to increase the number who go to college. This involves improved high school instruction,
provision for helping individual talented students to finish high school (primarily the responsibility of the local communities), and opportunities for more capable, promising high school students to go to college. Anything short of this means serious waste of higher education and neglect of human resources.
To encourage and enable a larger number of young men and women of ability to take up science as a career, and in order gradually to reduce the deficit of trained scientific personnel, it is recommended that provision be made for a reasonable number of (a) undergraduate scholarships and graduate fellowships and (b) fellowships for advanced training and fundamental research. The details should be worked out with reference to the interests of the several States and of the universities and colleges; and care should
be taken not to impair the freedom of the institutions and individuals
concerned.
The program proposed by the Moe Committee in Appendix 4 would provide 24,000 undergraduate scholarships and 900 graduate fellowships and would cost about $30,000,000 annually when in full operation. Each year under this program 6,000 undergraduate scholarships would be made available to high school graduates, and 300 graduate fellowships would be offered
to college graduates. Approximately the scale of allowances provided for 26
under the educational program for returning veterans has been used in estimating the cost of this program. The plan is, further, that all those who receive such scholarships or fellow-
ships in science should be enrolled in a National Science Reserve and be liable to call into the service of the Government, in connection with scientific
or technical work in time of war or other national emergency declared by Congress or proclaimed by the President. Thus, in addition to the general benefits to the Nation by reason of the addition to its trained ranks of such a corps of scientific workers, there would be a definite benefit to the Nation in having these scientific workers on call in national emergencies. ‘The Government would be well advised to invest the money involved in this plan even if the benefits to the Nation were thought of solely—which they are not—in terms of national preparedness.
2/7
Part Five
A PROBLEM OF SCIENTIFIC RECON VERSION Effects of Mobilization of Science for War We have been living on our fat. For more than 5 years many of our scientists have been fighting the war in the laboratories, in the factories and shops, and at the front. We have been directing the energies of our scientists to the development of weapons and materials and methods on a large number of relatively narrow projects initiated and controlled by the Office of Scientific Research and Development and other Government agencies. Like troops,
the scientists have been mobilized and thrown into action to serve their
country in time of emergency. But they have been diverted to a greater exten
than is generally appreciated from the search for answers to the fundamental problems—from the search on which human welfare and progress depends. This is not a complaint—it is a fact. The mobilization of science behind the lines is aiding the fighting men at the front to win the war and to shorten it; and it has resulted incidentally in the accumulation of a vast amount of experience and knowledge of the application of science to particular problems, much of which can be put to use when the war is over. Fortunately, this country had the scientists—and the time—to make this contribution and thus to advance the date of victory.
Security Restrictions Should be Lifted Promptly Much of the information and experience acquired during the war is confined to the agencies that gathered it. Except to the extent that military security dictates otherwise, such knowledge should be spread upon the record
for the benefit of the general public. Thanks to the wise provision of the Secretary of War and the Secretary of the Navy, most of the results of wartime medical research have been published. Several hundred articles have appeared in the professional journals; many are in process of publication. ‘The material still subject to security classification should be released as soon as possible. It is my view that most of the remainder of the classified scientific material should be released as soon as there is ground for belief that the enemy will not be able to turn it against us in this war. Most of the information needed by industry and in education can be released without disclosing its embodi28
ments in actual military material and devices. Basically there is no reason to believe that scientists of other countries will not in time rediscover everything we now know which is held in secrecy. A broad dissemination of scientiic information upon which further advances can readily be made furnishes a sounder foundation for our national security than a policy of restriction which would impede our own progress although imposed in the hope that possible enemies would not catch up with us. During the war it has been necessary for selected groups of scientists to work on specialized problems, with relatively little information as to what other groups were doing and had done. Working against time, the Office of Scientific Research and Development has been obliged to enforce this practice during the war, although it was realized by all concerned that it was an emergency measure which prevented the continuous cross-fertilization so essential to fruitful scientific effort. Our ability to overcome possible future enemies depends upon scientific advances which will proceed more rapidly with diffusion of knowledge than under a policy of continued restriction of knowledge now in our possession.
Need for Coordination In planning the release of scientific data and experience collected in connection with the war, we must not overlook the fact that research has gone forward under many auspices—the Army, the Navy, the Office of Scientific Research and Development, the National Advisory Committee for Aeronautics, other departments and agencies of the Government, educational institutions, and many industrial organizations. There have been numerous
cases of independent discovery of the same truth in different places. To permit the release of information by one agency and to continue to restrict it elsewhere would be unfair in its effect and would tend to impair the morale and efficiency of scientists who have submerged individual interests in the controls and restrictions of war.
A part of the information now classified which should be released is possessed jointly by our allies and ourselves. Plans for release of such information should be coordinated with our allies to minimize danger of international friction which would result from sporadic uncontrolled release.
A Board to Control Release The agency responsible for recommending the release of information from military classification should be an Army, Navy, civilian body, well grounded in science and technology. It should be competent to advise the Secretary of War and the Secretary of the Navy. It should, moreover, have sufficient recognition to secure prompt and practical decisions.
To satisfy these considerations I recommend the establishment of a Board, made up equally of scientists and military men, whose function would be to pass upon the declassification and to control the release for publication of scientific information which is now classified. 29
Publication Should Be Encouraged The release of information from security regulations is but one phase of the problem. The other is to provide for preparation of the material and its publication in a form and at a price which will facilitate dissemination and
use. In the case of the Office of Scientific Research and Development, arrangements have been made for the preparation of manuscripts, while the staffs under our control are still assembled and in possession of the records, as soon as the pressure for production of results for this war has begun to relax. We should get this scientific material to scientists everywhere with great promptness, and at as low a price as is consistent with suitable format. We should also get it to the men studying overseas so that they will know what has happened in their absence. It is recommended that measures which will encourage and facilitate the preparation and publication of reports be adopted forthwith by all agencies, governmental and private, possessing scientific information released from security control.
30
Part Six
THE MEANS TO THE END New Responsibilities for Government One lesson is clear from the reports of the several committees attached as appendices. The Federal Government should accept new responsibilities for promoting the creation of new scientific knowledge and the development of scientific talent in our youth. The extent and nature of these new responsibilities are set forth in detail in the reports of the committees whose recommendations in this regard are fully endorsed. In discharging these responsibilities Federal funds should be made avail-
able. We have given much thought to the question of how plans for the use of Federal funds may be arranged so that such funds will not drive out of the picture funds from local governments, foundations, and private donors. We believe that our proposals will minimize that effect, but we do not think
that it can be completely avoided. We submit, however, that the Nation’s need for more and better scientific research is such that the risk must be accepted.
It is also clear that the effective discharge of these responsibilities will require the full attention of some over-all agency devoted to that purpose. There should be a focal point within the Government for a concerted program of assisting scientific research conducted outside of Government. Such an agency should furnish the funds needed to support basic research in the colleges and universities, should coordinate where possible research programs on matters of utmost importance to the national welfare, should formulate a national policy for the Government toward science, should sponsor the inter-
change of scientific information among scientists and laboratories both in this country and abroad, and should ensure that the incentives to research in industry and the universities are maintained. All of the committees advising on these matters agree on the necessity for such an agency.
The Mechanism There are within Government departments many groups whose interests are primarily those of scientific research. Notable examples are found within the Departments of Agriculture, Commerce, Interior, and the Federal Security Agency. These groups are concerned with science as collateral and 3]
peripheral to the major problems of those Departments. These groups should
remain where they are, and continue to perform their present functions, including the support of agricultural research by grants to the land grant colleges and experimental stations, since their largest contribution lies in applying fundamental knowledge to the special problems of the Departments within which they are established. By the same token these groups cannot be made the repository of the new and large responsibilities in science which belong to the Government and which the Government should accept. The recommendations in this report which relate to research within the Government, to the release of scientific information, to clarification of the tax laws, and to the recovery and development of our scientific talent now in uniform can be implemented by action
within the existing structure of the Government. But nowhere in the governmental structure receiving its funds from Congress is there an agency adapted to supplementing the support of basic research in the universities, both in medicine and the natural sciences; adapted to supporting research on new weapons for both Services; or adapted to administering a program of science scholarships and fellowships. A new agency should be established, therefore, by the Congress for the
purpose. Such an agency, moreover, should be an independent agency devoted to the support of scientific research and advanced scientific education
alone. Industry learned many years ago that basic research cannot often be fruitfully conducted as an adjunct to or a subdivision of an operating agency or department. Operating agencies have immediate operating goals and are under constant pressure to produce in a tangible way, for that is the test of their value. None of these conditions is favorable to basic research. Research
is the exploration of the unknown and is necessarily speculative. It is inhibited by conventional approaches, traditions, and standards. It cannot be satisfactorily conducted in an atmosphere where it is gauged and tested by operating or production standards. Basic scientific research should not, therefore, be placed under an operating agency whose paramount concern is anything other than research. Research will always suffer when put in competition with operations. The decision that there should be a new and independent agency was reached by each of the committees advising in these matters. I am convinced that these new functions should be centered in one agency.
Science is fundamentally a unitary thing. The number of independent agencies should be kept to a minimum. Much medical progress, for example, will come from fundamental advances in chemistry. Separation of the sciences in tight compartments, as would occur if more than one agency were involved, would retard and not advance scientific knowledge as a whole.
Five Fundamentals There are certain basic principles which must underlie the program of Government support for scientific research and education if such support is
to be effective and if it is to avoid impairing the very things we seek to foster. ‘hese principles are as follows: 32
(1) Whatever the extent of support may be, there must be stability of funds over a period of years so that long-range programs may be undertaken. (2) The agency to administer such funds should be composed of citizens
selected only on the basis of their interest in and capacity to promote the work of the agency. They should be persons of broad interest in and understanding of the peculiarities of scientific research and education. (3) The agency should promote research through contracts or grants to organizations outside the Federal Government. It should not operate any laboratories of its own.
(4) Support of basic research in the public and private colleges, universities, and research institutes must leave the internal control of policy, personnel, and the method and scope of the research to the institutions themselves. This is of the utmost importance. (5) While assuring complete independence and freedom for the nature, scope, and methodology of research carried on in the institutions receiving public funds, and while retaining discretion in the allocation of funds among such institutions, the Foundation proposed herein must be responsible to the President and the Congress. Only through such responsibility can we maintain the proper relationship between science and other aspects of a democratic system. The usual controls of audits, reports, budgeting, and the like, should, of course, apply to the administrative and fiscal operations of the Foundation, subject, however, to such adjustments in procedure as are necessary to meet the special requirements of research. Basic research is a long-term process—it ceases to be basic if immediate
results are expected on short-term support. Methods should therefore be found which will permit the agency to make commitments of funds from current appropriations for programs of five years duration or longer. Continuity and stability of the program and its st:pport may be expected (a) from the growing realization by the Congress of the benefits to the public from scientific research, and (b) from the conviction which will grow among those who conduct research under the auspices of the agency that good quality work will be followed by continuing support.
Military Research As stated earlier in this report, military preparedness requires a permanent, independent, civilian-controlled organization, having close liaison with the Army and Navy, but with funds direct from Congress and the clear power
to initiate military research which will supplement and strengthen that carried on directly under the control of the Army and Navy. As a temporary measure the National Academy of Sciences has established the Research Board for National Security at the request of the Secretary of War and the Secretary of the Navy. This is highly desirable in order that there may be no interruption in the relations between scientists and military men after the emergency wartime Office of Scientific Research and Development goes
out of existence. The Congress is now ccasidering legislation to provide funds for this Board by direct appropriation. 33
I believe that, as a permanent measure, it would be appropriate to add to
the agency needed to perform the other functions recommended in this report the responsibilities for civilian-initiated and civilian-controlled military
research. The function of such a civilian group would be primarily to conduct long-range scientific research on military problems—leaving to the Services research on the improvement of existing weapons. Some research on military problems should be conducted, in time of peace as well as in war, by civilians independently of the military establishment. It is the primary responsibility of the Army and Navy to train the men, make available the weapons, and employ the strategy that will bring victory in combat. The Armed Services cannot be expected to be experts in all of the complicated fields which make it possible for a great nation to fight successfully in total war. There are certain kinds of research—such as research on the improvement of existing weapons—which can best be done within the military establishment. However, the job of long-range research involving application of the newest scientific discoveries to military needs should be the responsibility of those civilian scientists in the universities and in industry who are best trained to discharge it thoroughly and successfully. It is essential that both kinds of research go forward and that there be the closest liaison between the two groups. Placing the civilian military research function in the proposed agency would bring it into close relationship with a broad program of basic research in both the natural sciences and medicine. A balance between military and other research could thus readily be maintained. The establishment of the new agency, including a civilian military research group, should not be delayed by the existence of the Research Board for National Security, which is a temporary measure. Nor should the creation of the new agency be delayed by uncertainties in regard to the postwar
organization of our military departments themselves. Clearly, the new agency, including a civilian military research group within it, can remain sufficiently flexible to adapt its operations to whatever may be the final organization of the military departments.
National Research Foundation It is my judgment that the national interest in scientific research and scientific education can best be promoted by the creation of a National
Research Foundation.
I. Purposes The National Research Foundation should develop and promote a national policy for scientific research and scientific education, should support basic research in nonprofit organizations, should develop scientific talent in American youth by means of scholarships and fellowships, and should by contract and otherwise support long-range research on military matters. II. Members 1. Responsibility to the people, through the President and Congress, should
be placed in the hands of, say nine Members, who should be persons not 34
otherwise connected with the Government and not representative of any special interest, who should be known as National Research Foundation Members, selected by the President on the basis of their interest in and capacity to promote the purposes of the Foundation. 2. [he terms of the Members should be, say, 4 years, and no Member should be eligible for immediate reappointment provided he has served a full 4-vear term. It should be arranged that the Members first appointed serve terms of such length that at least two Members are appointed each succeeding year.
3. The Members should serve without compensation but should be entitled to their expenses incurred in the performance of their duties. 4. The Members should elect their own chairman annually. 5. The chief executive officer of the Foundation should be a director appointed by the Members. Subject to the direction and supervision of the Foundation Members (acting as a board), the director should discharge all the fiscal, legal, and administrative functions of the Foundation. The director should receive a salary that is fully adequate to attract an outstanding man to the post. 6. There should be an administrative office responsible to the director to handle in one place the fiscal, legal, personnel, and other similar administrative functions necessary to the accomplishment of the purposes of the Foundation.
7. With the exception of the director, the division members, and one executive oficer appointed by the director to administer the affairs of each division, all employees of the Foundation should be appointed under Civil Service regulations.
III. Organization 1. In order to accomplish the purposes of the Foundation, the Members should establish several professional Divisions to be responsible to the Members. At the outset these Divisions should be: a. Division of Medical Research—The function of this Division should be to support medical research. b. Division of Natural Sciences——The function of this Division should be to support research in the physical and natural sciences. c. Division of National Defense.—It should be the function of this Division to support long-range scientific research on military matters. d. Division of Scientific Personnel and Education.—It should be the function of this Division to support and to supervise the grant of scholarships and fellowships in science. e. Division of Publications and Scientific Collaboration —This Division should be charged with encouraging the publication of scientific knowledge and promoting international exchange of scientific information.
2. Each Division of the Foundation should be made up of at least five members, appointed by the Members of the Foundation. In making such appointments the Members should request and consider recommendations from the National Academy of Sciences which should be asked to establish a new National Research Foundation nominating committee in order to 35
bring together the recommendations of scientists in all organizations. The
chairman of each Division should be appointed by the Members of the Foundation.
3. The Division Members should be appointed for such terms as the Members of the Foundation may determine, and may be reappointed at the discretion of the Members. They should receive their expenses and compensation for their services at a per diem rate of, say, $50 while engaged on business of the Foundation, but no Division Member should receive more than, say, $10,000 compensation per year.
4. Membership of the Division of National Defense should include, in addition to, say, five civilian members, one representative designated by the Secretary of War, and one representative of the Secretary of the Navy, who should serve without additional compensation for this duty.
Proposed Organization of National Research Foundation NATIONAL RESEARCH .
STAFF OFFICES GENERAL COUNSEL FINANCE OFFICER ADMINISTRATIVE PLANNING PERSONNEL
DIVISION OF DIVISION OF DIVISION OF
MEDICAL RESEARCH NATURAL SCIENCES NATIONAL DEFENSE
MEMBERS MEMBERS MEMBERS
DIVISION OF SCIENTIFIC DIVISION OF PUBLICATIONS PERSONNEL & EDUCATION | [& SCIENTIFIC COLLABORATION
EXECUTIVE OFFICER
36
IV. Functions 1. The Members of the Foundation should have the following functions, powers, and duties: a. To formulate over-all policies of the Foundation.
b. To establish and maintain such offices within the United States, its territories and possessions, as they may deem necessary.
c. To meet and function at any place within the United States, its territories and possessions.
d. To obtain and utilize the services of other Government agencies to the extent that such agencies are prepared to render such services.
e. To adopt, promulgate, amend, and rescind rules and regulations to carry out the provisions of the legislation and the policies and practices of the Foundation. f. To review and balance the financial requirements of the several Divisions and to propose to the President the annual estimate for the funds
required by each Division. Appropriations should be earmarked for the purposes of specific Divisions, but the Foundation should be left discretion with respect to the expenditure of each Division’s funds. g. To make contracts or grants for the conduct of research by negotiation without advertising for bids.
And with the advice of the National Research Foundation Divisions
concerned—
h. To create such advisory and cooperating agencies and councils, State, regional, or national, as in their judgment will aid in effectuating the purposes of the legislation, and to pay the expenses thereof.
i. To enter into contracts with or make grants to educational and nonprofit research institutions for support of scientific research. j. Yo initiate and finance in appropriate agencies, institutions, or organizations, research on problems related to the national defense. k. To initiate and finance in appropriate organizations research projects for which existing facilities are unavailable or inadequate. l. To establish scholarships and fellowships in the natural sciences including biology and medicine. m. To promote the dissemination of scientific and technical information and to further its international exchange. n. To support international cooperation in science by providing financial aid for international meetings, associations of scientific societies, and scientific research programs organized on an international basis. o. To devise and promote the use of methods of improving the transition between research and its practical application in industry.
2. The Divisions should be responsible to the Members of the Foundation for—
a. Formulation of programs and policy within the scope of the particular Divisions.
b. Recommendation regarding the allocation of research programs among research organizations. 37
c. Recommendation of appropriate arrangements between the Foundation and the organizations selected to carry on the program. d. Recommendation of arrangements with State and local authorities in regard to cooperation in a program of science scholarships and fellowships.
e. Periodic review of the quality of research being conducted under the auspices of the particular Division and revision of the program of support of research. f. Presentation of budgets of financial needs for the work of the Division. g. Maintaining liaison with other scientific research agencies, both governmental and private, concerned with the work of the Division. V. Patent Policy The success of the National Research Foundation in promoting scientific research in this country will depend to a very large degree upon the cooperation of organizations outside the Government. In making contracts with or grants to such organizations the Foundation should protect the public interest adequately and at the same time leave the cooperating organizations with adequate freedom and incentive to conduct scientific research. ‘The public interest will normally be adequately protected if the Government receives a royalty-free license for governmental purposes under any patents resulting from work financed by the Foundation. There should be no obligation on the research institution to patent discoveries made as a result of support from the Foundation. ‘There should certainly not be any absolute requirement that all rights in such discoveries be assigned to the Government, but it should be left to the discretion of the Director and the interested Division whether in special cases the public interest requires such an assignment.
Legislation on this point should leave to the Members of the Foundation discretion as to its patent policy in order that patent arrangements may be adjusted as circumstances and the public interest require. VI. Special Authority In order to insure that men of great competence and experience may be designated as Members of the Foundation and as Members of the several professional Divisions, the legislation creating the Foundation should contain specific authorization so that the Members of the Foundation and the Members of the Divisions may also engage in private and gainful employment, notwithstanding the provisions of any other laws: provided, however, that no compensation for such employment is received in any form from any profit-making institution which receives funds under contract, or otherwise, from the Division or Divisions of the Foundation with which the individual is concerned. In normal times, in view of the restrictive statutory prohibitions against dual interests on the part of Government officials, it would be virtually impossible to persuade persons having private employment of any kind to serve the Government in an official capacity. In order, however, to secure the part-time services of the most competent men as Members of the Foundation and the Divisions, these stringent prohibitions should be relaxed to the extent indicated. Since research is unlike the procurement of standardized items, which are 38
susceptible to competitive bidding on fixed specifications, the legislation creating the National Research Foundation should free the Foundation from the obligation to place its contracts for research through advertising for bids. This is particularly so since the measure of a successful research contract lies
not in the dollar cost but in the qualitative and quantitative contribution which is made to our knowledge. The extent of this contribution in tum depends on the creative spirit and talent which can be brought to bear within a research laboratory. The National Research Foundation must, therefore, be free to place its research contracts or grants not only with those institutions which have a demonstrated research capacity but also with other institutions whose latent talent or creative atmosphere affords promise of research success.
As in the case of the research sponsored during the war by the Ofhce of Scientific Research and Development, the research sponsored by the National
Research Foundation should be conducted, in general, on an actual cost basis without profit to the institution receiving the research contract or grant. There is one other matter which requires special mention. Since research
does not fall within the category of normal commercial or procurement operations which are easily covered by the usual contractual relations, it is essential that certain statutory and regulatory fiscal requirements be waived
in the case of research contractors. For example, the National Research Foundation should be authorized by legislation to make, modify, or amend contracts of all kinds with or without legal consideration, and without per-
formance bonds. Similarly, advance payments should be allowed in the discretion of the Director of the Foundation when required. Finally, the normal vouchering requirements of the General Accounting Ofhce with respect to detailed itemization or substantiation of vouchers submitted under cost contracts should be relaxed for research contractors. Adherence to the usual procedures in the case of research contracts will impair the efficiency of research operations and will needlessly increase the cost of the work to the Government. Without the broad authority along these lines which was
contained in the First War Powers Act and its implementing Executive Orders, together with the special relaxation of vouchering requirements granted by the General Accounting Office, the Office of Scientific Research
and Development would have been gravely handicapped in carrying on research on military matters during this war. Colleges and universities in which research will be conducted principally under contract with the Foundation are, unlike commercial institutions, not equipped to handle the detailed vouchering procedures and auditing technicalities which are required of the usual Government contractors. VII. Budget Studies by the several committees provide a partial basis for making an estimate of the order of magnitude of the funds required to implement the proposed program. Clearly the program should grow in a healthy manner from modest beginnings. The following very rough estimates are given for the first year of operation after the Foundation is organized and operating, and for the fifth year of operation when it is expected that the operations would have reached a fairly stable level: 39
Activity a Millions of dollars
First year | Fifth year
Division of Natural Sciences.............._.._.-.___.--_----- 10.0 50.0
Division of Medical ee $5.0 $20 .0 Division of Publications and Scientific Collaboration.......__- 5 1.0 Division of National Defense____________.________-.__--- 10.0 20.0 Division of Scientific Personnel and Education___________-_- 7.0 29.0
Administration... __...__...-...------- ee eee 1.0 2.5 33.5 122.5 Action by Congress The National Research Foundation herein proposed meets the urgent need of the days ahead. The form of the organization suggested is the result of considerable deliberation. ‘The form is important. The very successful pattern of organization of the National Advisory Committee for Aeronautics,
which has promoted basic research on problems of flight during the past thirty years, has been carefully considered in proposing the method of appointment of Members of the Foundation and in defining their responsibilities. Moreover, whatever program is established it is vitally important that it satisfy the Five Fundamentals. The Foundation here proposed has been described only in outline. The excellent reports of the committees which studied these matters are attached as appendices. They will be of aid in furnishing detailed suggestions. Legislation is necessary. It should be drafted with great care. Early action is imperative, however, if this Nation is to meet the challenge of science and
fully utilize the potentialities of science. On the wisdom with which we bring science to bear against the problems of the coming years depends in large measure our future as a Nation.
40
APPEHNDICES
4]
ri _OOOONONCCCO«CzsCCitCCi.CtCN
IN MEMORIAM The following members of the
advisory committees have died since the publication of_ Science, the Endless Frontier in 1945: ISAIAH BOWMAN
WALTER C. COFFEY KARL T. COMPTON R. E. DOHERTY CLARENCE A. DYKSTRA FARNHAM P. GRIFFITHS
W. S. HUNTER W. RUPERT MACLAURIN
CHARLES E. MACQUIGG CLEVELAND NORCROSS
J. HuGH O’DONNELL W. W. PALMER J. T. TATE KENNETH B. TURNER
42
Appendix I
Committees Consulted Question “With particular reference to the war of science against disease, what can be done now to organize a program for continuing in the future the
work which has been done in medicine and related sciences?” Committee
Dr. W. W. Palmer, chairman; Bard professor of medicine, Columbia University; director of medical service of Presbyterian Hospital, New York City.
Dr. Homer W. Smith, secretary; director, physiology laboratory, School of Medicine, New York University. Dr. Kenneth B. Turner, assistant secretary; assistant professor of medicine, Columbia University. Dr. W. B. Castle, professor of medicine, Harvard University; associate director, Thorndike Memorial Laboratory, Boston City Hospital. Dr. Edward A. Doisy, director, department of physiology and biochemistry, St. Louis University School of Medicine (recipient of Nobel Award). Dr. Ernest Goodpasture, professor of pathology, School of Medicine, Vanderbilt University.
Dr. Alton Ochsner, professor of surgery and head of the department of surgery at Tulane University School of Medicine. Dr. Linus Pauling, head of the division of chemistry and chemical engineering and director of the chemical laboratories at the California Institute of Technology.
Dr. James J. Waring, professor of medicine, University of Colorado School of Medicine.
43
Question “What can the Government do now and in the future to aid research activities by public and private organizations? The proper roles of public
and of private research, and their interrelation, should be carefully considered. »
Committee
Dr. Isaiah Bowman, chairman; president of Johns Hopkins University. Dr. J. T. Tate, vice chairman; research professor of physics, University of Minnesota. Dr. W. Rupert Maclaurin, secretary; professor of economics, Massachusetts Institute of Technology.
Dr. Oliver E. Buckley, president of the Bell Telephone Laboratories. Dr. Walter C. Coffey, president of the University of Minnesota. Mr. Oscar S. Cox, deputy administrator of the Foreign Economic Administration.
Col. Bradley Dewey, president of Dewey & Almy Chemical Co.
Dr. Clarence A. Dykstra, provost of the University of California at Los Angeles.
Dr. C. P. Haskins, director of Haskins Laboratories. Dr. Edwin H. Land, president and director of research, Polaroid Corpora-
University. )
tion.
Dr. Charles E. MacQuigg, dean of the College of Engineering, Ohio State Dr. Harold G. Moulton, president of the Brookings Institution. Rev. J. Hugh O'Donnell, president of the University of Notre Dame. Dr. I. I. Rabi, professor of physics, Columbia University (recipient of Nobel Award ).
Dr. Warren Weaver, director for natural sciences, Rockefeller Foundation. Dr. Robert E. Wilson, chairman of the board, Standard Oil Co. of Indiana. Dr. William E. Wrather, director, U. S. Geological Survey.
Question “Can an effective program be proposed for discovering and developing scientific talent in American youth so that the continuing future of scientific research in this country may be assured on a level comparable to what has been done during the war?” Committee
Dr. Henry Allen Moe, chairman; secretary-general of the John Simon Guggenheim Memorial Foundation. Mr. Lawrence K. Frank, secretary. Mr. Henry Chauncey, assistant secretary. Dr. Henry A. Barton, director of the American Institute of Physics.
Nemours & Co. .
Dr. C. Lalor Burdick, special assistant to the president, E. I. du Pont de Continued, next page
44
Dr. J. B. Conant, president of Harvard University; chairman of the National Defense Research Committee. Dr. Watson Davis, editor and director of Science Service. Dr. R. E. Doherty, president of the Carnegie Institute of Technology. Dr. Paul E. Elicker, executive secretary, National Association of Secondary School Principals. Mr. Farnham P. Griffiths, lawyer, San Francisco. Dr. W. S. Hunter, professor of psychology at Brown University. Dr. T. R. McConnell, dean of the College of Science, Literature, and Arts at the University of Minnesota. Mr. Walter S. Rogers, director of the Institute of Current World Affairs.
Dr. Harlow Shapley, director of the Harvard College Observatory. Dr. Hugh S. Taylor, dean of the Graduate School, Princeton University. Dr. E. B. Wilson, professor of vital statistics, Harvard University School of Public Health.
Question “What can be done, consistent with military security, and with the prior approval of the military authorities, to make known to the world as soon as possible the contributions which have been made during our war effort to scientific knowledge?”
Committee
Dr. Irvin Stewart, chairman; executive secretary of the Office of Scientific Research and Development; director of the Committee on Scientific Aids to Learning of the National Research Council. Mr. Cleveland Norcross, secretary; executive assistant to the executive secretary of the Office of Scientific Research and Development. Dr. J. P. Baxter III, president of Williams College; historian of the Ofhce of Scientific Research and Development.
Dr. Karl T. Compton, president of the Massachusetts Institute of Technology; chairman of the Research Board for National Security; member
of the National Defense Research Committee. Dr. J. B. Conant, president of Harvard University; chairman of the National Defense Research Committee.
Dr. A. N. Richards, vice president of the University of Pennsylvania in charge ofthe Medical chairman of the Committee on Medical Research of OfficeAffairs; of Scientific Research and Development. Dr. M. A. Tuve, director, applied physics laboratory, Johns Hopkins University; staff member of the department of Terrestrial Magnetism of the Carnegie Institution of Washington. Mr. Carroll L. Wilson, executive assistant to the Director of the Office of Scientific Research and Development.
45
Appendix 2
Report of the Medical Advisory Committee Table of Contents Page Letter of transmittal oo oon ene eee eee =F
Members of the Committee 2.2222 one nn nnn eeeeeteereene «= 48 SUMMALY — ane te een anennnennetennencnnnnnnneeceeen AD
Recommendations __......----.-------------2----2202eeeeeneeee nee ene OL Part I. Considerations on which the recommendations of the Committee are
based ooo nnn ee nenennnnnernrenee 5D 1. The record of medicine in World War IT _. «= 5
2. The Committee on Medical Research of the Office of Scientific Research
and Development -...__....---2-----2-2.-22n222eee nee e ee eee 92D
3. Effect of war on medical research _...--2 022 eee ence =F 4. The need for continued medical research __.-. eee «= dG
5. Importance of fundamental research to the progress of medicine _............. 55 6. The place of medical schools and universities in medical research ............. 56
7. Medical research under State sponsorship in Great Britain _............ 56
8. The need for Federal aid to medical research ...--0222- eee «57
9. How financial aid should be supplied — eee. 58
10. Estimated cost of program __..-WW.0---22-2-----2e2eeee eee 60
11. The need for an independent agency -—_-.-.0.022-2-22------2------n-e---------------- 00
12. 13.Compensation Patent rights2-22 22eee noe§=6] 6)
research ooo eee 62
Part II. Fundamental principles governing the use of Federal funds for medical
Part III. Recommendations outlining the establishment of a “National Foundation for Medical Research” as an independent Federal agency —_................ 64
1. Composition of the Foundation _WWW22- 222i eee ~—4
Board of trustees _2202022o 2 ooo nnn ee 64 Technical board 202. -22.o ooo ee 65 Office of the executive secretary —_2.2- oie eee 66
Financial aid ooo. ee =87
2. Functions of the Foundation — 2.0022 ooo nae 6 a. General research funds __-.-- 2-2 eee e eee eee eneee eee ~—457
c. Grants-in-aid ooo nee 68
b. Fellowships __....-------------22-ceeeeeeeeee ee eee 67
Coordination and initiation of research .__..............---2-.--------------------------- 68
3. Reports 2-222. eet enn een eennennnnennneetnneeeeeeee 68
4. Authority to modify procedure 2222 ieee © 69
46
LETTER OF TRANSMITTAL Dr. Vannevar Busu, Director, Office of Scientific Research and Development,
1530 P Street NW., Washington 25, D. C.
My Dear Dr. Busu: It is my privilege to submit herewith the report of the Medical Advisory Committee appointed by you in January of this year to answer the second question in President Roosevelt’s letter of November 17, 1944, which was worded: With particular reference to the war of science against disease, what can be done now to organize a program for continuing in the future the work which has been done in medicine and related sciences? The fact that the annuai deaths in this country from one or two diseases alone are far in excess of the total number of lives lost by us in battle during this war should make us conscious of the duty we owe future generations.
In preparing this report, the Committee has consulted some 350 representatives from 73 of the 77 medical schools of the United States, from the Services, from various research institutions, from the pharmaceutical industry, and from philanthropic foundations; it has conferred in joint meeting with the Committee on Medical Research; and it has received written comment and advice from many leaders in medicine and allied sciences throughout the country. The report, which is preceded by a summary, is in three parts: (1) Considerations on which the recommendations of the Committee are based, (2) fundamental principles governing the use of Federal funds for medical re-
search, (3) recommendations outlining the establishment of a National Foundation for Medical Research as an independent Federal agency. The Committee recognizes a great and urgent need for the expansion and renovation of medical school laboratories. However, our study has taken no account of this requirement, pertinent as it is to medical research, since a building program was considered outside the scope of our assignment. This report has the unanimous approval of my Committee and I submit it with the conviction that it has, almost without exception, the endorsement of the many individuals to whom the Committee is so deeply indebted for freely given and valuable advice. Respectfully yours,
Water W. PaLtmer, Chairman, Medical Advisory Committee.
Aprit 25, 1945. 47
MEMBERS OF THE COMMITTHE Dr. Walter W. Palmer, chairman, Bard professor of medicine, Columbia University; director of medical service of the Presbyterian Hospital, New York City.
Dr. Homer W. Smith, secretary, director, physiology laboratory, School of Medicine, New York University. Dr. Kenneth B. ‘Turner, assistant secretary, assistant professor of medicine, Columbia University. Dr. William B. Castle, professor of medicine, Harvard University; associate director, Thorndike Memorial Laboratory, Boston City Hospital. Dr. Edward A. Doisy, director, department of physiology and biochemistry, St. Louis University School of Medicine (recipient of Nobel Award). Dr. Ernest Goodpasture, professor of pathology, School of Medicine, Vanderbilt University.
Dr. Alton Ochsner, professor of surgery and head of the department of surgery, Tulane University School of Medicine. Dr. Linus Pauling, head of the division of chemistry and chemical engineer-
ing, director of the chemical laboratories at the California Institute of Technology.
Dr. James J. Waring, professor of medicine, University of Colorado School of Medicine.
48
SUMMARY Impressed by the contributions medicine has made in the present world struggle, President Roosevelt asked what could be done by the Government in the future to aid “the war of science against disease.”
Recognition of the brilliant record of medicine in World War II has brought comfort to thousands of families with members in the armed forces. Compared to World War I the death rate for all diseases in the Army, including overseas forces, has fallen from 14.1 to 0.6 per 1,000 strength. Penicillin and the sulfonamides, the insecticide DDT, better vaccines, and improved hygienic measures have all but conquered yellow fever, dysentery, typhus,
tetanus, pneumonia, meningitis. Malaria has been controlled. Disability from venereal disease has been radically reduced by new methods of treatment. Dramatic progress in surgery has been aided by the increased availability of blood and plasma for transfusions. Much of the credit for these advances is properly assignable to the Committee on Medical Research of the Office of Scientific Research and Development. In 3 years this organization has developed penicillin and DDT; supported blood fractionation studies resulting in serum albumin as a blood substitute and immune globulin as a new countermeasure against infections; and standardized the effective treatment of malaria with atabrine now used by the armed forces. Up to July 1944, this program had cost $15,000,000, a modest outlay for the saving in suffering and lives. These dramatic advances in medicine during the war have been the result of developmental rather than fundamental research, and have come through the application, to problems of wartime importance, of a large backlog of scientific data accumulated through careful research in the years prior to the war. In the meantime, sorely needed additions to. basic knowledge have been prevented. The war has forced us to set aside fundamental research to a
large extent. Our capacity to carry out research in the future has been impaired by the curtailment of medical education, the absorption of physicians into the armed forces, the prohibition against training draft-eligible men in the basic medical sciences, and the diversion into developmental problems of those scientists who were able to remain in their laboratories. The universities are the chief contributors to pure science, for research thrives best in an atmosphere of academic freedom. It is to the universities 49
that we must turn to train more men for research and to provide the information that will enable us to solve the problems of cancer, degenerative disease and the ageing process, neuropsychiatric disorders, peptic ulcer, asthma, and even the common cold. University funds that can be used for medical research are decreasing as research costs rise. Income from endowment is steadily shrinking, while endowment itself is no longer being increased by large new gifts. Medical schools must continue to meet relatively fixed expenses of teaching and overhead from smaller budgets, with the result that less money is left for research.
Medical research will continue in the future, regardless of any adverse circumstances. The Government, however, has an opportunity to play an important role in supplementing the depleted research budgets of medical schools. Federal aid will increase the volume of medical research; it will strengthen the promise of important discovery and speed its fulfillment; it will encourage and develop the financially weaker schools now at a serious disadvantage; and it will enable the United States to maintain its position of world leadership in medical research in competition with the nations of Europe where State funds have long been available for scientific research. When a government wisely invests the people’s money in medical research,
the people receive huge dividends in the form of better health and longer lives.
If Federal funds are to be used to aid medical research, they should be provided in three forms: 1. Funds should be made available as unrestricted grants, with no portion earmarked for a specific purpose, to supply technical help and materials; to enable a limited number of young people to obtain research experience during their regular course in medicine; to build up research in institutions where, for financial reasons, it is not now well-developed; and to cover a multitude of research requirements within each institution. The administration of these funds should be decentralized to the fullest possible extent, allowing full play to the wisdom and experience of medical school faculties
and administrators. If a central agency were to attempt to underwrite a program of this sort item by item, the costs of administration would be prohibitive, and the organization would be too rigid and ponderous to meet the numerous, diverse, and sometimes rapidly varying needs of the institutions. 2. Funds should be made available to support fellowships in order that young people with aptitude for research may be selected, trained, and given an opportunity to carry on research. 3. Funds should be made available to support special projects of considerable magnitude and importance by grants-in-aid. The Federal agency should receive its funds by such means as to permit it to favor long term grants, up to 10 years. Federal aid should be initiated modestly. Funds exceeding the capacity of the Nation’s research institutions to utilize them effectively would do harm by encouraging mediocre work and by driving away university and foundation support. The responsible agency must remain free from political influence and resistant to special pressures. Its policies must be determined 50
by scientists who bring sympathetic understanding to the problems of research. The agency must have the necessary flexibility to modify its procedures in the light of experience.
From available information it is estimated that approximately 5 to 7 million dollars annually could be used effectively in the immediate postwar period. As the research program develops a larger sum may be required.
Recommendations The Committee recommends that Government aid be provided for medical research through the creation of an independent Federal agency to be
called the National Foundation for Medical Research. The Foundation would consist of a board of trustees, a technical board, and the necessary administrative organization.
The board of trustees would consist of five eminent scientists appointed by the President with the approval of the Senate for terms of 5 years, and in such a way initially as to secure rotation by the retirement of one member each year. The trustees would serve on a part-time basis, be paid for their work, and be appointed without regard to civil-service laws. Meetings of the trustees would be held monthly with one meeting annually in each of six geographical regions. The trustees would determine the policies of the Foundation and act on all requests for funds. The technical board would consist of 12 scientists, representing special fields of medical science, appointed by the trustees for terms of 3 years, and in such a way initially as to secure rotation by the retirement of 4 members each year. Technical board members would serve on a part-time basis, be paid for their work, and be appointed without regard to the civil-service laws. Members of the technical board would have the necessary aides and ad hoc committees to assist them in the performance of their duties. The technical board would forward all requests for funds to the trustees with recommendations for appropriate action, follow the progress of work supported by the Foundation, and prepare reports or appraisals requested by the trustees.
The financial and other business affairs of the Foundation would be in charge of a full-time executive secretary responsible to the trustees. The Foundation would not engage in research but would initiate and coordinate research in existing institutions and maintain liaison with interested domestic and foreign agencies.
51
Part One
Considerations on which the Recommendations of the Committee are Based
1. The Record of Medicine in and improved mosquito control, yel-
World War II low fever has not appeared in the We believe that at no time has su- Army or Navy. _ Prompt arrest
, of the Naples epidemic of typhus
perior medical and surgical care been 1 C the | ‘cade DDT ;
available to the public generally than y ‘apamatic the al soe © 8 is now received by our armed forces a Tne. exampie Of preventive
even in the most remote parts of the The cod Ifa d 7
world. Public knowledge of the ex. © th ° 1 th stra , ae a cellence of this care has brought com- Owere t © he A rate ¢ 5 4, ar
fort to thousands of anxious families ent is WH dW T lees h a and has strengthened the morale of cent in VVor arf 0 fess than
at present. our; percent fighting men.The a death rate The magnificent records of the trom senth of th has een, rectuces
medical departments of the Army and to one tenn We one af che oe end
Navy are directly attributable to two - q h Bt B factors: (1) The training men re umphs of modern ¢ crapeulics. y
ceived “before the war in American its use death rates and disability from medical schools and teaching hospi. infections due to the staphylococcus, tals was the best in the world. and streptococcus, pneumococcus, and an-
when war came, large neserves of thrax bacillus have been greatly resuperbly trained physicians and sur- Maced as aso Proved wo me 8
geons were available for the armed . Cecti qd; - no heal 8 forces. (2) Medical progress had af echon a q an SA “a ake been rapid before the war and was of wounds ane h BEDS. aT . he de t
continued at an accelerated rate dur- oF treatment wit uct. e the ays ing the war under the stimulus of pet man per year lost trom active the Committee on Medical Research duty in 1944 because of venereal disand the Army Epidemiology Board ease were one-third of those for 1940.
The veeules ate spectacular, Be- The temporary disabling complicasween World War I ia 4 Worl 4 War tions of gonorrhea have been cut in
thi iod t t ty-fourth.
II, the death rate for all diseases in is Period oe oer y have been
the Army, including overseas forces, Iv less d 8 Dy te d
has been reduced from 14.1 to 0.6 scarcely ics ramatic, espite cv"
1.000 bh D ¢ astating antipersonnel munitions, the
el , 7 strength. ¢ ee he bo fatality rate among the wounded has
metiy the scourge Or armies, has De been as low as in any war in history. come a minor problem. ‘Tetanus, Prolonged and difficult operations are typhoid, paratyphoid, cholera, and performed successfully in field hossmallpox have been practically elimi- pitals close to the front. Surgical
nated. As a result of a potent vaccine skill has been aided by the avail52
ability of large quantities of plasma airborne infections, venereal diseases, and whole blood for the treatment of infected wounds, burns, neurosur-
severely wounded men. gery, X-rays, surgical sutures, shock,
blood substitutes, treatment of gas
2. The Committee on Medical _ casualties, convalescence and veh. Research of the Office of Scien- bilitation, insect and rodent control, tific Research and Development antimalarial drugs, and the developIn the summer of 1940, the advice ™€Dt and use of penicillin. .
of the Division of Medical Sciences Among the most conspicuous of the National Research Council achievements of this program are was sought by the Surgeons General the following: in many fields of medicine and sur- a. The acquisition, in civilian hos-
gery. Ultimately 13 committees and pitals and laboratories, of sufh43 subcommittees were set up in avi- cient knowledge of the thera-
ation medicine, chemotherapy, con- peutic value of penicillin to valescence and rehabilitation, drugs warrant its ofhcial adoption by and medical supplies, industrial medi- the medical divisions of the cine, medicine including malarial Army and Navy and to provide studies, infectious diseases, nutrition, the impetus for the great protropical disease, tuberculosis, venereal duction program that has made diseases, etc., neuropsychiatry, path- this remarkable drug available ology, sanitary engineering, shock in large quantities for both mili-
and transfusion, surgery, and the tary and civilian use. treatment of gas casualties. b. Developments in insect repelIn June 1941, the Committee on lents and insecticides, particu-
Medical Research was organized un- larly DDT, important in guardder the Office of Scientific Research ing troops against insect-borne
and Development, to “initiate and diseases such as typhus and
support scientific research on medical malaria.
problems affecting the national de- c. The study of human blood fense. The existing committees of plasma which has led to use by the National Research Council acted the armed forces of serum almoan advisory capacity to the new bumin as a blood substitute, of
Vy .
organization. immune globulins to combat inAs of December 1, 1944, 496 re-andfact; ; foam to ections, of fibrin search contracts had been executed bleed;
by the Committee on Medical Re- Stop picecing. search with 120 different institutions. d. The improvement and stand-
Over 95 percent of these contracts ardization of the treatment of were with universities or teaching malaria by atabrine. hospitals. ‘he personnel represented e. The determination of the relain this work numbered about 2,670, tive usefulness of sulfonamide
of whom 553 were physicians. These drugs in the treatment of investigators have studied dysentery, wounds and burns. bubonic plague, cholera, gas gan- f. The physiological indoctrination grene, influenza, tuberculosis, hemo- of our airmen and the developlytic streptococcal disease, encepha- ment of devices which enable
litis, primary atypical pneumonia, them to endure the rigors of 53
high altitudes without disastrous 4. The Need for Continued loss of fighting capacity or life. Medical Research It is fair to say that without the It must be emphasized that nearly Office of Scientific Research and De- all that was good or apparently new
velopment or its equivalent few or in war medicine had its roots in none of the investigations listed above civilian medicine. The pressure of would have been carried out with the war served chiefly to accelerate the same speed and thoroughness. This development and large scale applicaresearch program to June 30, 1944, tion to military needs of previously had cost over $15,000,000. Private known facts. Medicine must consider funds were not available to finance now how to attack the medical prob-
this work. lems of peace. As President Roosevelt noted, the
Research ;
, annual deaths in this country from
5. Effect of War on Medical one or two diseases alone are far in
excess of the total number of lives Despite this imposing record of lost by us in battle. This is true even practical achievement, the war has though notable progress has been seriously retarded the long-range de- made in civilian medicine during the velopment of medicine in ways per- past three decades. Diabetes has been
haps not immediately apparent to brought under control by the disthe uninformed, but nevertheless covery of insulin; pernicious anemia with effects that will be longlasting. by the use of liver therapy; and the Because those physicians and scien- once widespread deficiency diseases
tists who have remained in their have been almost eradicated, even in laboratories have, for patriotic rea- the poorest income groups, by the sons, devoted themselves to special discovery of accessory food factors problems raised by the exigencies of and the improvement of the diet. war, essential fundamental research Notable advances have been made has decreased to an extent which can in the early diagnosis of cancer, and
only be viewed with grave concern. in the surgical and radiation treatOur hospitals and medical schools ment of this dreaded disease.
have suffered serious depletions of In the period of 1900 to 1942, the staff in order to supply the armed average life expectancy of the Ameriforces with needed physicians. Medi- can people increased from 49 to 65 cal education has been hurried and years, largely as a result of the reimpaired by the accelerated program, duction in the death rates of infants and the advanced training of young and children. In the last two decades, men has been in practically complete the death rate from diseases of child-
abeyance throughout the war. This hood has been reduced 87 percent. diversion of physicians, coupled with Deaths from scarlet fever have been an effective prohibition against gradu- reduced 92 percent, from whooping ate training in the ancillary sciences cough 74 percent, and from measles has left the fields of medical science 91 percent. The death rate from diph-
barren and without the seed té pro- theria among children (5 to 14) is duce a new generation of investi- only one eighteenth what it was two gators. It will be many years before decades ago. Only one-fourth as
medicine fully recovers. many children die today from tuber54
culosis and pneumonia as would if supply a complete solution. We sim-
the mortality rate of 20 years ago ply do not know enough, and instill prevailed. The death rate among creased facilities for medical care will
children between the ages of 5 and not supply the missing answers. The 14 from all causes combined was cut basic task faced by medicine is con97 percent between 1922 and 1942. tinued exploration of the human For every three children who die organism and the nature of disease. under current conditions, more than ‘This exploration has only begun. seven would have died if the death rate of two decades ago had continued.
. a ; edicine
This reduction in the death rate in 2 !mportance of Fundamental
childhood has shifted the emphasis esearch to the Progress of in medicine to the middle- and old-
age groups, and particularly to the Research in medicine may be carmalignant diseases and the degenera- ried out effectively in two ways: tive processes which are prominent in First, by a coordinated attack on a the later decades of life. Cardiovas- particular disease; or second, by indecular disease, including chronic dis- pendent studies of the fundamental
ease of the kidneys, arteriosclerosis, nature of the human body and its and cerebral hemorrhage, now ac- physiological mechanisms, of the counts for 45 percent of the deaths nature of bacteria, viruses, and other in the United States. Second in im- agents of disease, and of the influence portance are the infectious diseases, of environment on both. An example
and third is cancer. Added to these of the first method is the attack on are many maladies (for example, the malaria carried out under the Army, common cold, arthritis, asthma and Navy, Public Health Service, the
hay fever, peptic ulcer) which, National Research Council, and the though infrequently fatal, cause in- Office of Scientific Research and De-
calculable disability. velopment. The discovery of peniAnother aspect of the changing cillin is an example of the second emphasis in clinical medicine is the method: Fleming noted that a comincreasing incidence of mental dis) mon mold, Penicillium notatum, inease. Approximately 7,000,000 per- hibited the growth of a culture of sons in the United States are men- bacteria in which it appeared as a tally ill. More than one-third of the contaminant. ‘Thus an incidental obhospital beds in this country are filled servation in the course of studies un-
with such persons at a cost of $175,- related to chemotherapy furnished 000,000 annually. Each year nearly the basis for the ultimate develop125,000 mentally ill new patients are ment of the most valuable chemo-
hospitalized. therapeutic agent known.
In short, despite notable progress Discoveries in medicine have often in prolonging the span of human come from the most remote and un-
| 55
life and in alleviating suffering, ade- expected fields of science in the past;
quate methods of prevention and and it is probable that this will be cure are not yet available for many equally true in the future. It is not diseases. Additional hospitals, physi- unlikely that significant progress in cians, and mechanisms for dispersing the treatment of cardiovascular disknowledge, however useful, cannot ease, kidney disease, cancer. and other
refractory conditions will be made, duty and privilege of the medical perhaps unexpectedly, as the result schools and universities is to foster of fundamental discoveries in fields medical research in this way, and this
unrelated to these diseases. duty cannot be shifted to GovernTo discover is to “obtain for the ment agencies, industriai organizafirst time sight or knowledge of some tions, or any other institutions. fact or principle hitherto unknown.” Because of their close relationship Discovery cannot be achieved by di- to teaching hospitals, the medical rective. Further progress requires that schools are in a unique position to the entire field of medicine and the integrate clinical investigation with underlying sciences of chemistry, the work of the departments of prephysics, anatomy, biochemistry, physi- clinical science, and to impart new ology, pharmacology, bacteriology, knowledge to physicians in training. pathology, parasitology, etc., be de- Conversely, the teaching hospitals are
veloped impartially. especially well organized to carry on medical research because of their
close relationship to the schools, on
6. The P lace of Medical Schools which they depend for staff and
and Universities in Medical supervision.
Research Not all our medical schools are The medical schools and universi- equally developed. Because of inade-
ties of this country can contribute to quate financial support or lack of medical progress by carrying on re- trained personnel, some of them can search to the limit of available facili- contribute little to medical research.
ties and personnel, and by training A great increase in the resources of competent investigators for an en- the Nation would be achieved by
larged program in the future. stimulating research in these less faIn some cases coordinated direct vored schools. It is imperative that attacks will be made on special prob- we employ all possible methods of lems by teams of investigators from improving the research facilities and the medical schools, supplementing research staffs of our present medical similar direct attacks carried on by schools before considering the estabthe Army, Navy, Public Health Serv- lishment of new institutions. ice, and other organizations. How-
ever, the main obligation of the
medical schools and vniversities, in ¢ Medical Research Uneer S tate
addition to teaching, will be to con- ponsorsiip in Great Britain
tinue the traditional function of these Although Federal aid for medical institutions—that of providing the in- research was brought about in the dividual worker with an opportunity United States largely under pressure for the voluntary and untrammeled of war, Government support of re-
study in the directions and by the search has been general in Europe methods suggested by his imagination for many years. As a rule this support
and curiosity. [he entire history of has been delegated to organizations science bears testimony to the su- separate from the ordinary Governpreme importance of affording the ment bureaus in order to remove it prepared mind complete freedom for as far as possible from political influthe exercise of initiative. he special ence and to place the administration 56
of funds in the hands of men experi- stricted funds with no portion ear-
enced in research. marked for a specific purpose.
In Great Britain as early as 1911 ‘Through a recent act of Parliament the promotion of medical research whereby this Committee is enabled was explicitly recognized as a respon- to award $4,000,000 annually to sibility of the State by the establish- medical schools and $2,000,000 to ment of the Medical Research Com- teaching hospitals, this indirect sup-
mittee, which became the Medical port of medical research by the Research Council in 1920. The Government has been substantially Council has administrative autonomy increased. with general responsibility to a com-
mittee of ministers in the Priv Council. It receives money From 8. the Need for Federal Aid to
both Parliament and nongovernmen- Medical Research tal sources specifically for furthering Between World War I and World medical research and has no connec- War II the United States overtook tion with any system of medical care the other nations in medical research
or health insurance. audi forged ahead to a position of The Medical Research Council has world leadership. If this leadership continued to play an increasingly ini: is to be maintained, some form of
portant and eminently successful role Government financial aid to the medi-
in its field. Through it Government cal schools will be necessary. This support for medical research and the view is accepted by the Committee aid of medical science to the Govern- and by nearly all whom the Com-
ment are assured. mittee has consulted.
Medical research in Great Britain Dr. A. N. Richards, Chairman ot also receives indirect Government aid the Committee on Medical Research,
through the University Grants Com- reported to the Subcommittee on mittee, a Standing Committee of the Wartime Health and Education of Treasury. Its members are independ- the Committee on Education and ent experts of acknowledged repute Labor of the United States Senate and thoroughly familiar wich the that, in connection with medical reproblems of university administration. search, “The experience of the Office
The Committee’s terms of reference of Scientific Research and Develop-
are “To inquire into the financial ment has proved that none of the needs of university education in the universities which were called upon United Kingdom, and to advise the for Office of Scientific Research and Government as to the application of Development work could afford to
any grants that may be made by undertake it on the scale which the Parliament toward meeting them.” | emergeney demanded at the expense
Although the University Grants of its own resources. Hence, if the Committee does not give direct grants concerted efforts of medical investifor specific medical research projects, gators which have yielded so much of
it holds that research is one of the value during the war are to be conprimary functions of a university and tinued on any comparable scale duran indispensable element in the work ing the peace, the conclusion is inof university teachers. Grants to the escapable that they must be supported institutions are in the form of unre- by government.” 57
At the same hearing, Dr. Lewis H. Moreover, the foundations in general
Weed, Chairman of the Division of favor short-term grants to projects Medical Sciences of the National Re- which carry promise of yielding imsearch Council, stated “* * * Much mediate results.
of medical research will necessarily Industry is a potential source of have to be abandoned in the private funds, but gifts from this source and semiprivate institutions of the are usually for specific problems of country unless Government subsidy a developmental nature. University is made available in some form for the alumni associations contribute only general support of medical research.” relatively small sums. Direct gifts Without Federal support American from individuals are a substantial aid
medical research will not stop, but at times, but the medical schools without it our opportunities to ad- must compete with all charities and vance medical knowledge cannot churches for these funds. Furtherfully be exploited, and our objectives more, it is estimated that gifts from
will be reached more slowly. individuals, while perhaps more nuIt has been computed that the an- merous, are far smaller in total than
nual budgets of the 77 medical the large contributions of individual schools in the United States total] donors in the past. about $26,000,000. The portion of When the funds available to a this sum spent for medical research medical school are cut, the institution cannot be determined accurately. In- usually retrenches by curtailing the
come from tuition amounts to portion used for research. Overhead $8,000,000, leaving a deficit of and teaching expenses must be met, $18,000,000 annually. To meet this and research becomes a luxury.
deficit the schools, apart from those Finally, while research funds are connected with State universities and decreasing, the costs of research are
financed by the respective States, steadily rising. More elaborate and
draw upon many sources. expensive equipment is required, sup-
A substantial part comes from uni- Plies are more costly, and the wages versity endowment, but during the of assistants are higher.
past 10 years the amount of new endowment f0 medical schools has 9. How Financial Aid Should be greatly diminished. At the same time), Disod the income from present endowment PP has been cut by one-third. With con- Federal financial aid to the meditinued high taxation it is improbable cal schools should be provided in that large gifts and bequests for scien- three forms: General research funds,
tific work can be expected in the fellowships, and grants-in-aid.
future. General research funds
In many instances funds are allo- It is the Committee’s opinion that cated to the medical schools from unrestricted grants, with no portion tuition fees derived from other de- earmarked for specific purposes, and
partments of the university. with administration delegated to local
Another source of research funds research boards, would be the most is the foundations, but, as in the case valuable and productive form in of the universities, the income from which Government support could be foundation endowment is decreasing. given. 58
A medical school consists of a and equipment promptly diverted to dozen or more semi-autonomous de- more productive work, as it is that the partments, each with its own budget. project should have been given a trial.
In the schools favored with a large A special use for general research endowment, research projects are con- funds would be to provide “junior stantly in progress in all departments; fellowships” which would allow a
in financially weaker schools, the medical student to interrupt his budget of a department may be too course, usually between the preclinismall to supply as much asa secretary cal and clinical years, and to devote for the department head, and research himself fulltime to research for a is, of course, a financial impossibility. year or two. The chances in this Even in the most favored depart- country for medical students to gain ments, the quality and quantity of re- research experience prior to graduasearch would be greatly increased if tion are few, and as a result much it were possible to employ an extra research ability goes undiscovered. technical assistant or two, to purchase Candidates for these fellowships
additional supplies or a necessary would be unknown to a central piece of equipment, to improve or agency, which would have to rely enlarge animal quarters, or to meet entirely upon the judgment of the other countless small financial re- local research board for their selecquirements that may arise suddenly tion. Hence it would be proper and and may be of a temporary nature. economical to provide these fellowIn departments with small budgets ships from the general research funds such requirements are even more administered by the local board.
pressing. Many medical schools at | The provision of funds as block present have small likelihood of se- grants to local research boards would
curing grants-in-aid because they exercise to greatest advantage the have neither personnel nor equip- principle of decentralization of conment to conduct successfully the type trol of research; would eliminate of research project appropriately fi- costly overhead; would create a flexi-
nanced by this method. ble mechanism to meet rapidly varyIf a central agency were to attempt ing needs; would allow full play to to meet item by item these many the wisdom and experience of medirequirements by means of specific cal school faculties and administragrants, the administrative costs would __ tors, whose knowledge in aggregate
be prohibitive. The amount needed and whose particular knowledge of for each item is small, but the total local needs must always exceed that amount needed by an institution may of a central agency; would promote
be relatively large. research in laboratories where it is Furthermore, a central agency ROW poorly developed; would foster would lack the flexibility to meet the investigations of an exploratory narapidly varying and often temporary ure; and would provide the greatest research needs that arise in the medi- amd most effective stimulus to medical schools. A promising lead in re- cal research.
search may prove patently false Fellowships within a month or two. It is equally Federal funds should be used to important that the project should support fellowships, extending over then be stopped, and its personnel periods up to 6 years, to be awarded 59
by the Government agency to enable 11. The Need for an Independent selected men to obtain training in re- Agency search, to learn techniques in elds Advances in medical science have other than those of their basic scien- Come and will continue to come pretific education, or fo undertake re ponderantly from medical schools or
search on a full-time basis. Since science departments of universities. 1921 the fellowship program, SUP” Therefore the problem of improving ported by the Rockefeller Foundation medical research and of training more
and administered by the Medical Fel- top-flight investigators is primarily lowship Board of the N ational Re- one of aiding the medical schools and search Council, has made an impor- yniversities to utilize their research tant contribution to the advance of and educational facilities to the fullmedical science and to the training est extent. of teachers and investigators in the In the Committee’s opinion, mediUnited States. An Increase 10 the cal research could best be promoted number of such fellowships is greatly by the creation of an independent
needed. Federal agency.
Grants-in-aid This new organization would not
A limited number of important re- conflict with the medical interests of search projects both of immediate and existing Government agencies, none long-range consequence, will require of which is primarily concerned with special grants-in-aid. On occasion, developing the basic medical sciences through grants-in-aid, support should or with training personnel, both of be given to medical schools, hospitals, which are functions of the univeror nonprofit scientific institutions to sities. Some duplication of investiga-
enable a senior investigator to develop tion would occur in problems in the problems of his interest more which civilian investigators and one
rapidly and effectively. or more Government agencies were mutually interested. However, it can-
10. Estimated Cost of Program aa beartoo strongly emphasized that, from being wasteful, duplication No final statement on costs is is imperative in medica] research, possible at this time. From informa- where each new discovery can be tion received from the deans of medi- accepted only after repeated confirma-
cal schools, from the expenditures of tion by independent observers apthe Committee on Medical Research, proaching the problem from different and from other sources, it is estimated points of view. The duplication is that approximately 5 to 7 million dol. more apparent than real, as the re-
lars annually can be used effectively sults of independent investigators in the immediate postwar period. A working on a common problem rarely larger sum may be required when the agree exactly, and the differences program is fully underway. This esti- are frequently the basis for new dismate does not include the possible coveries. assumption of present commitments Rather than conflicting with existof the Office of Scientific Research ing agencies, the proposed body and Development. A more definite would supplement the research activstatement would require prolonged ities of these agencies in a valuable
study. manner. Only through the efforts of 60
such a body can our Government activities related to the national welagencies be supplied with the neces: fare, until at present, even discountsary increase in numbers of expert ing the increased demands of war, personnel and with the all-important many teachers and investigators are increase in basic scientific knowledge unable to discharge their responsibilion which medical advance depends. _ ties to the institutions which pay their
As the function of the proposed — salaries. A further increase in this agency is broadly conceived, as it borrowing of personnel without commust be concerned not only with pensation can inflict only injury upon
research but with the training of the medical schools. personnel required by all existing Moreover, many competent invesagencies, and as it must operate tigators in medicine and surgery draw through non-Governmental education a negligible fraction of their income institutions, the future of which rests as salary, depending financially upon heavily upon private endowment or clinical practice. Participation in the support by the States, it is the Com- work of the agency may interrupt this mittee’s conviction that the Federal practice and the resulting loss of inagency concerned with medical re- come may exclude such persons from search should be created de novo and _ service. be independent of all existing agencies, none of which is sufficiently free
of specialization of interest to warrant 13, Patent Rights assigning to it the sponsorship of a
program so broad and so intimately The practice in regard to patent related to civilian institutions. rights on discoveries and inventions bearing on human health varies in different medical institutions in this
12. Compensation country. [he Committee has made The Committee believes that better no effort to codify them, or to arrive effort will be put into the work of the at a generally acceptable policy.
agency by members if they are paid. It seems to the Committee that The question of adjustment of salary under the present patent laws the from parent institutions should be principle of patenting certain types
left to the parties concerned. of discoveries and inventions to exIt is estimated that members of the clude misuse is sound. Since perhaps
board of trustees and technical board, the majority of institutions do not as proposed below, will be called capitalize their patent privileges, and upon to give an average of one-third since such practice would be incom-
of their time to the work of the patible with Government sponsored agency. One-half the time of the research, it is suggested that, where aides may be required. This includes a patent be granted on research time devoted by members to the work which has been sponsored by Gov-
of the agency at their official stations ernment in whole or in part, the
and in traveling. ownership of the patent remain in Over the past 25 years there has the inventor, and that the Governbeen an increasing draft of expert ment receive, in addition to a royaltypersonnel from the medical schools _ free license, the power to require the to meet the demand for scientists in _ licensing of others. 6]
Part Two
Fundamental Principles Governing the Use of Federal Funds for Medical Research
As stated above, the Committee is should administer the agency convinced that Federal aid is neces- and determine its policies. Since sary to ensure maximal progress in the agency will be concerned the development of medical science. primarily with basic scientific It is also convinced that this aid, if research in, and scientific train-
misdirected, may do serious harm. ing and policies pertinent to, It believes that among the major endowed or State supported principles which should govern the civilian institutions, and since application of Federal aid to medical the armed forces, the Public
research are the following: Health Service, and other exista. Until experience has indicated ing governmental services have the best plan of organization specialized interests, the Com-
and procedure, the Federal mittee believes that it is as im-
agency created to aid medical proper for any one of these servresearch should be kept as flexi- ices to hold the power of vote
ble as possible. One of our in matters pertaining to the procolleagues has written “The posed new agency as it would common history of social organi- be for one or more members of
zations has been their creation the agency to vote in the medi-
in response to an idea, their cal councils of the services. flowering under the influence d. The agency should not attempt of the idea, their loss of the to dominate or regiment medical idea, and their perpetuation for research but should function by the maintenance of the prestige creating greater opportunities of the office-holder.” Only if and more freedom for investigaauthority to experiment with or- tion, and by aiding in coopera-
ganization is. written into its tive efforts. It should not at-
charter will an agency designed tempt to influence the selection to aid medical research escape of personnel, the conditions of
this fate. tenure, the salary level, or other
b. The administration of Federal internal affairs of the institu-
aid to medical research must be tions to which it gives aid. free from political influence and e. Any program of Federal aid to protected against special pres- medical research should be mod-
SUTES. estly initiated in terms of actual
c. Men who are experienced in needs and conservatively inresearch and who understand creased as the capacity of the the problems of the investigator medical schools to utilize addi62
tional funds is demonstrated. If public. This danger must be the Government spends too guarded against by constantly much in medical research, other encouraging confirmatory work funds will be driven out and the or “challenging investigations.”
Government will be the sole h. The agency should not serve source of support. The schools merely as a mechanism for disshould remain free to elect the bursing funds for particular repotential donor to whom they search projects, but should wish to apply. As Senator Pep- always attempt to maintain a per has stated, “Government broad view of the needs of the can not, and must not, take whole field of medical research. the place of philanthropy and i. It is believed that it would be industry in the sponsorship of unwise for a national body con-
research. cerned with medical research to
f. The establishment of life-time give prizes or otherwise to disresearch professorships, or of pense praise or blame. It is also protracted research fellowships, believed that this agency should at the expense of Federal funds avoid even the semblance of is considered unwise. In excep- scientific authority. What is ac-
tional instances, as for example ceptable or unacceptable in
when an investigator demon- medicine must be established by strates unusual ability, or it is tested methods of examination desirable to relieve a senior and and not be made to appear as experienced person from aca- such because of the imprimatur demic or clinical responsibilities of a national body. in order to free him forresearch, | j. The agency should come to support should be obtained from share in the leadership of medi-
general research funds or cal investigation by encouraging
through a grant-in-aid. individual initiative and free-
g. A grave danger in any effort to dom of research, and with a accelerate discovery is the ease careful avoidance of coercion with which the quality of the and regimentation, which might work can be lowered by encour- lead not only to mediocre work aging men to undertake research but to disastrous impairment of who are inadequately prepared the spirit of cooperation, and of or unfitted for the task. Medi- research itself. Individual scienocre research work in medicine tific curiosity, community of inis not only apt to be useless, but terest and regard for the commay prove dangerous by mis- mon weal must in peace replace leading medical practice and by as a cohesive force the patriotism
fostering false hopes in the of war.
63
Part Three
Recommendations Outlining the Establishment of a ‘National Foundation for Medical Research” as an Independent Federal Agency
It is recommended that an inde- viding his short term has been less pendent agency of the Federal Gov- than 2 years. No two members servernment be established, to be known ing simultaneously shall be chosen as the National Foundation for Medi- from the same institution. The suc-
cal Research. cessor to a retiring member shall not be chosen from the same institution
1. Composition of the except in unusual instances.
Foundation The original members of the board
a of trustees are to be appointed for
The foundation is to be composed 2, 3, 4, 5, and 6 years, respectively, of (a) a board of trustees, (b) a tech- in order to assure continuity and ro-
nical board, and (c) an executive tation. Whenever a vacancy occurs
secretary's ofhce. or is to occur, the chairman is to transmit to the President of the
Board of Trustees United States for his information a
The board of trustees is to consist list of suitable candidates. In preof five persons appointed without P@ ng this list, the chairman is inregard to the Civil Service Laws by structed to seek the advice of the the President of the United States President ot the National Academy
and subject to confirmation by the of Sciences. | Senate. They are to be chosen on the The chairman is to répeesent the basis of scientific achievement and Foundation m maciers cficcting medi. leadership, wide knowledge of medi- cal research where the imterests of
cal problems, capacity for adminis- other Government agencics are in-
tration and organization, and with volved. ; .
reasonable regard for geographical The board of trustees is to meet representation. The board of trustees not less than once each month. At
is to elect its own chairman. least one regular meeting each year
A member of the board of trustees is to be held in each of the following
is to serve on a part-time basis for geographical areas: North Atlantic, a term of 5 years and is not to be South Atlantic, North Central, South eligible for reappointment. A mem- Central, Rocky Mountain, and Pa-
ber appointed to a vacancy caused by cific coast areas. . death or resignation is eligible for The board of trustees 1s to deterreappointment for a full term pro- mine the broad policies of the Foun-
a dation. It is to appoint members of ig intended to anclude ‘elated ‘aspects of den- the technical board and is to have the
proiczoology, and similar fields,’ “©” authority to approve or disapprove 64
all recommendations of the technical board of trustees the membership of board. It may request the chairman _ the technical board may be increased
and other members of the tech- or decreased in number. nical board to sit with it whenever A member of the technical board
necessary. should not ordinarily be considered The board of trustees is to establish eligible for reappointment, but a renecessary liaison offices to insure a_ tired member may be appointed to free exchange of information with the board of trustees. A member apall domestic and foreign agencies or pointed to fill an unexpired term is services interested in medical re- eligible for reappointment for a full search. It is to invite the Surgeons term. No two members serving simulGeneral of the Army, the Navy, the taneously shall be chosen from the United States Public Health Service, same institution. The successor to a the Air Force, or responsible officers retiring member shall not be chosen of other domestic or foreign organi- from the same institution except in zations as may be indicated, to ap- unusual instances.
point appropriate liaison officers to The chairman of the technical sit with it during deliberations of board is to be designated by the board
interest to those agencies. Liaison of trustees. He is to represent the ofhcers are not to have the power technical board before the trustees,
of vote. is to call meetings of the technical Remuneration board as frequently as necessary, and is to be responsible for the supervision
Each member of the board of trus- oF the activities of the board and the tees is to be paid a salary of seventy- preparation of reports required by the
five hundred dollars ($7,900) Per board of trustees. annum for that portion of his time The original members of the techwhich he devotes to the services of nical board are to be appointed in the Foundation. In accordance with groups of 4 to serve 2, 3, and 4 years, Government regulations, a member respectively, in order to assure conis to receive travel expenses and suit- tinuity and rotation.
able per diem to cover other costs :
when traveling. Hemuneration Each member of the technical
oe board is to serve on a part-time basis
Technical Board for 3 years, and is to receive a salary A technical board, composed ini- to be determined by the Board of tially of 12 persons, is to be ap- trustees, but not to exceed five thoupointed, without regard to the Civil sand dollars ($5,000) a year for that Service Laws, by the board of trus- portion of his time which he devotes tees. The members of the technical to the services of the Foundation. In board are to be chosen on the basis accordance with Government regulaof their knowledge and experience tions, a member is to receive travel in special fields of medical research expenses and suitable per diem to and the related sciences, and with cover other costs when traveling. reasonable regard for geographical Aides representation. The office of a board Each member of the _ technical member is to remain in his parent board may, with the approval of the institution. At the discretion of the technical board, appoint one or more
65
aides without regard to the Civil It is to maintain reasonable superService Laws. ‘These aides are to be vision of work under general research
selected on the basis of qualification funds and grants-in-aid and of the in a special research field and are to activities of Fellows, and keep the serve on a part-time basis for periods trustees informed on the progress of
up to 3 years. this work.
As determined by the board of It is to arrange for the preparation
trustees, aides are to be compensated of reports or appraisals as requested
for time spent in the work of the by the board of trustees. Foundation, and when traveling are Its members are to keep themselves to receive travel expenses in accord- informed on the status of pertinent ance with Government regulations medical problems, to which end they and a suitable per diem to cover are authorized to convene round-table
other costs. discussions, to invite competent perAs aides are scientists in a poten- sons to prepare summaries of specific tially productive period, provision is problems, and to seek authoritative to be made to insure that they remain information in any other appropriate professionally active, and that service manner.
with the technical board does not It is to receive and consider recomjeopardize their academic careers. mendations from individual investi-
Committees gators with regard to the further development of problems of possible
The technical board is to appoint. jentific interest.
ad hoc committees to advise with a particular member on medical prob-
lems. Members of such committees
are to be appointed consultants with Office of the Executive Secretary per diem compensation up to twenty- A full-time executive secretary is five dollars ($25), and in accordance to be appointed by the board of truswith Government regulations are to tees after consultation with approprireceive travel expenses and suitable ate Government fiscal and accounting per diem to cover other costs when agencies. The executive secretary is
traveling. to organize administrative, fiscal, and Aides and committees appointed accounting offices for the conduct of
for a technical board member are to — the business of the Foundation. Fiscal
be discharged on the expiration of actions approved by the board of the member’s term, but continued trustees are to be put into effect by service may be invited by the mem- the executive secretary and his afhli-
ber’s successor. ated officers.
Authority of the technical board Except for the executive secretary,
, ; ; all members of the staff of the execu-
The technical board is to receive, .. be d from review and recommend to the board five secretary are to be Crawn of trustees on all requests for gen-
qualified civil-service lists.
eral research funds, fellowships, and
Brantsin-ale. Functions of the Foundation t is to take such steps2. as are necessary to put approved programs into The functions of the Foundation
effect. are to be (a) to further medical re66
search by providing financial aid the regular course. Junior fellowships through general research funds, fel- are not to be used as scholarships to lowships and grants-in-aid; (b) to defray medical school tuition. The coordinate research in progress and policy of each institution in regard to initiate new work considered essen- to number of Junior Fellows, the tial; Cc) to establish necessary liaison value of the stipend, and other feato secure a free exchange of medical tures of general importance is to be
information. subject to review by the Foundation. Formal discussions concerning re-
Financial Aid newal of general research funds should be completed 1 to 3 years in
a. General research funds advance of termination.
On application, a block grant may If an application for general rebe made to a medical school for gen- search funds is refused, the applicant eral use over a period of 1 to 10 years institution may appeal directly to the
for the promotion of research pro- board of trustees for a review.
vided the institution can present evi- In allocating general research dence that it can efficiently utilize funds, the Foundation is to consider for scientific research the funds re- both the immediate needs and promquested, and that it is prepared to jse of development of the applicant give a reasonable accounting of the institutions, and is to take cognizance expenditure of funds received. The of the effects of such funds upon the institution is to have a research com- support of medical schools by their mittee, drawn preferably from the parent institutions. executive faculty and active investi- Equipment purchased under gengators, which is to be informed on eral research funds is to become the all local research expenditures, and is property of the institution to which to be responsible for the administra- the block grant is made. tion of the grant and for reports and accounting required by the Founda- b. Fellowships
tion. Fellowships are to be awarded by
The institutions are to be allowed the Foundation, for a period of 1 to wide latitude in the expenditure of 3 years, to approved applicants having general research funds, but these ex- the M.D., Ph.D., or D.D.S. degree penditures are to be subject to review or equivalent attainment, to enable
periodically by the Foundation, the recipients to acquire research which is to have the power of can- training, to undertake research, to
cellation. learn special techniques, or to pursue It is recommended that general re- studies in related sciences. Fellow-
search funds be used in part for ships may be renewed for a period junior fellowships to be awarded, up to 3 years, but only in exceptional without reference to the Foundation, instances should the term of a fellowto students working for an M.D. de- ship exceed 6 years. ‘The holder of a gree, in order to permit the recipients fellowship is to, be publicly desig-
to devote ] or 2 years on a full-time nated as a “Fellow of the National
basis to acquiring more specialized Foundation for Mbdical Research.” knowledge of the techniques of medi- In the initial selection of Fellows, cal research than is possible during potentialities for development of lead67
ership in medicine should be weighed concerning renewal should be comas heavily as past performance in re- pleted prior to the beginning of the
search work. Fellows are to be en- last third of the period of the grant. couraged to take further work in the Reasonable overhead expenses may fundamental sciences to remedy any _ be included in the financial statement
deficiencies in a contemplated re- accompanying a request for a grant, search career, but fellowships are not but overhead payments are not to be to be used to provide residencies, or automatic. primarily for obtaining postgraduate Reports are to be submitted under degrees or for qualifying for Certifi- each grant as required by the Foun-
cation by the Specialty Boards. dation. Equipment purchased under Fellowships are primarily intended a grant is to become the property of
to enable men to receive research the institution to which the grant 1S training and to engage in active re- made. search, but they should include ex- If a request for a grant or for the perience in teaching or the clinical extension of a grant is refused, the care of patients, as these exercises are applicant institution may appeal diessential to balanced research train- rectly to the board of trustees for a ing and are imperative if a Fellow is review. to fit himself for. maximal usefulness
in medicine or the medical sciences. Coordination and Initiation
Fellowship stipends are to be de- of Research termi ned by the Found ation with due The Foundation is to consider consideration of university salaries methods designed to stimulate repaid persons with equivalent training search, to improve research conditions
and experience, and to the desira- in institutions where it is now not
bility of encouraging relatively senior well developed, to effect coordination
men to devote themselves to research. . ; ; . among investigators working in a Research expenses of a Fellow may common field, and to facilitate publi-
be met by the Foundation. If an in- cation, dissemination, and experi-
stitution matches insurance or an- ental application of scientific innuity payments by its faculty, a formation. similar payment is to be added by the The Foundation is to initiate and Foundation to the Fellow’s stipend. support such new research work as A tellowshi p is to lapse automati- may be indicated, but it is not itself cally if a Fellow transfers to another to engage in research. Its integrative institution without approval by the and catalytic efforts are to be carried
Foundation. out by recommendation and invitac. Grants-in-aid tion rather than by direction. On application, grants-in-aid ex-
tending for 1 to 10 years may be 3. Reports
made to universities, medical schools,
or other nonprofit scientific institu- The Foundation is to report annutions for the support of specific proj- ally to the President, in the form he ects or of specified investigators. Ap- requests, on the progress of work car-
plications for grants-in-aid are to ried out under its authority. With carry: the endorsement of the appli- the President's approval, all or part of cant institution. Formal discussions the annual report is to be published. 68
4. Authority to Modify to make and alter specific regulations
Procedure and to experiment in procedures for The organization and responsibility fostering medical research is to be
of the Foundation are to be defined incorporated in the charter of the as broadly as possible. ‘The authority Foundation.
69
Report of the Committee on Science and the Public Welfare Table of Contents
Letter of transmittal 00 ee «6 Members of the Committee 2 2 ce ee nee «=D Page
Preface oni ne nnn eee OS SUMMALY nnn en nnnnneennnnnnennntennnnnen 14 A National Research Foundation —2- o-oo eee 75S Research carried on by the Federal Government _.........-.------ 75
Part
Environmental aids to industrial research «S78
T. Introduction 22222222 2o onan cee «=O
II. Present status and trends in American science __.............................. 8]
A. The nature of scientific research 0 OB B. Development of scientific research in the United States __.... 83 C. The national research budget 202222 85
Ill. Scientific research in American universities and colleges ................ 90 A. The university as a research environment _........................... 90
B. Form of aid to universities 9 A. Suggested reforms WW. 100 V. Aids to industrial research and technology —..............------.--.-----........... 107
IV. Scientific research in the Government service __........___...................... 99
research nee. 108 D. Strengthening the patent system «dO A. Assistance to technical clinics for small business enterprise __.... 107
B. Grants to nonprofit industrial institutes for fundamental
C. Encouragement for new scientific enterprises _...._....__.... 108
VI. Taxation and research 2 none ee. 110
CUTOS nnn eee eeeee LIO
A. Present tax treatment of research and development expendi-
B. Recommendations for legislative action -_......_........-..... 1]]
C. Broad tax considerations _.....--- «12 VII. International scientific cooperation we 13
tific enterprises 2 ee 113
A. Support and sponsorship of international cooperative scien-
VIII. A. A National Research Foundation dS Organization oo ee LS B. Powers and responsibilities 0 «did C. Patent policies of the Foundation —......-. «did
Appendix A. Library aids. -2--22-_-2a--nnn nnn 118 Appendix B. Analysis of university research expenditures _.............-....-.---.. 122
70
LETTER OF TRANSMITTAL Arrit 16, 1945. Dre. Vannevar Busu, Director, Office of Scientific Research and Development,
16th and P Streets NW., Washington, D.C.
Dear Dr. Busu: It is with satisfaction that I hand you herewith a copy of the report of
the Committee on Science and the Public Welfare. We have had a number of meetings with good attendance and excellent discussion. We have unanimously agreed on practically all essential points. If the report aids in any degree in completing the task assigned you by the late President Roosevelt all members of the committee, I feel sure, will be gratified.
Sincerely yours,
Isaran, Bowman, Chairman, Committee on Science and the Public Welfare.
71
MEMBERS OF THE COMMITTEE
Isaiah Bowman, Chairman, President, Johns Hopkins University. John T. Tate, Vice Chairman, Research Professor of Physics, University of Minnesota.
W. Rupert Maclaurin, Secretary, Professor of Economics, Massachusetts Institute of ‘Technology. Oliver E. Buckley, President, Bell ‘Telephone Laboratories.
Walter C. Coffey, President, University of Minnesota. Oscar S. Cox, Deputy Administrator, Foreign Economic Administration. Bradley Dewey, President, Dewey & Almy Chemical Company. Clarence A. Dykstra, Provost, University of California at Los Angeles. Caryl P. Haskins, Director, Haskins Laboratories, Edwin H. Land, President and Director of Research, Polaroid Corporation. Charles E. MacQuigg, Dean of Engineering, Ohio State University. Harold G. Moulton, President, Brookings Institution. J. Hugh O’Donnell, President, Notre Dame University. I. I. Rabi, Professor of Physics, Columbia University (recipient of Nobel Award ).
Warren Weaver, Director for Natural Sciences, Rockefeller Foundation. Robert E. Wilson, Chairman of the Board, Standard Oil Company of Indiana.
William E. Wrather, Director, U. S. Geological Survey, Department of Interior.
72
PRHFACE Dr. Isaiah Bowman was named by Dr. Vannevar Bush, Director of the Office of Scientific Research and Development, as chairman of a committee to consider this question raised by President Roosevelt in his letter of Novem-
ber 17, 1944, to Dr. Bush: “What can the Government do now and in the future to aid research activities by public and private organizations? ‘The proper roles of public and of private research and their interrelationship should be carefully considered.”
The Bowman Committee has confined its attention to research activities in the natural sciences, engineering, and agriculture. Clinical medicine has been considered by another committee. The support of the social sciences, it is believed, represents an important problem in itself which should be handled as a separate issue. In analyzing the task assigned to the Bowman Committee, the project was divided into the following major questions: 1. What should the Government do to assist research in universities and nonprofit research institutes? 2. What should the Government do to assist scientific research conducted by the Government itself? 3. What should the Government do to assist research in industrv? 4. What changes, if any, should be made in our present tax structure to stimulate industrial research? 5. What policy should the Government follow to encourage greater international interchange of scientific knowledge and engineering art after the war? 6. What are the proper roles of public and private research? The Committee was divided into working groups to consider each of these
questions except the last. The whole report is concerned with the basic problem of the proper roles of public and private agencies in scientific research. The analyses undertaken by the working groups have been combined into a final report which is submitted herewith. In addition to numerous meetings of the subcommittees the main Com-
mittee has held three full meetings, the first of which was devoted to resolving the problem into its major parts, the second to discussing the concept of the Federal Government in relation to research, and the last to considering the recommendations of the subcommittees. 73
Interest in the question of Federal aid to research reflects widespread recognition by the American people that the security of a modern nation depends in a vital way upon scientific research and technological progress. It is equally clear that public health, higher standards of living, conservation of national resources, new manufacturing which creates new jobs and investment opportunities—in short, the prosperity, well-being and progress of the American Nation—all require the continued flow of new scientific knowledge. Even if a nation’s manpower declines in relative numbers, even if its geographical frontiers become fixed, there always remains one inexhaustible national resource—creative scientific research. In view of the importance of science to the Nation, the Federal Government, by virtue of its charge to provide for the common defense and general welfare, has the responsibility of encouraging and aiding scientific progress. It has recognized this responsibility by providing research laboratories within
the structure of government, by providing a climate of law within which industry could progress on its own initiative, and by making limited appropriations to certain types of educational institutions. Study of the present
status of research has shown convincingly that certain basic parts of our research structure require increased financial support. Since the evidence is clear that private sources cannot assume the entire burden, the committee
has been forced to the conclusion that an increased measure of direct Federal aid is necessary. We believe that it is possible to devise methods whereby great benefits to research may be achieved by such aid without sacrificing the freedom essential for scientific advance or the academic independence of our traditional institutions. We therefore urge that the Federal Government take a more active interest in promoting scientific research, and in assuring that the Nation gain therefrom the benefits of increased security and increased welfare. We are convinced that the most effective way for the Federal Government to serve these purposes is to provide to our educational institutions and research institutes support for basic research and training for research. By so doing, the Government will increase the flow of new knowledge and the supply of young scientists trained in research. It is on this new knowledge that applied science
must build, and it is from the ranks of those trained in research that the leaders in applied science must come. 74
If this new knowledge and an adequate supply of trained men are provided, it is our opinion that the ordinary course of industrial activity can be
relied upon to convert to practical application in industry most of the advances made in research. However, we believe that in certain instances measures can and should be devised to expedite the transition from scientific
discovery to technological application. To this end we recommend that procedures be devised for supplying research information to small companies and stimulating them in the application of the latest technology.
In the international sphere the lack of any official Federal support for scientific meetings or experimental programs organized on an international scale has been a frequent source of embarrassment and difficulty. By providing official recognition and financial support to such undertakings the Government could do much to facilitate scientific interchange and promote international good will.
A National Research Foundation We believe that our national and international needs and responsibilities in the field of science require the creation of a new Federal instrumentality. We therefore recommend that a National Research Foundation be created for the promotion of scientific research and of the applications of research to enhance the security and welfare of the Nation.
The control of the Foundation should be in the hands of a board of trustees. This board should be appointed by the President of the United
States from a panel nominated by the National Academy of Sciences. The Foundation shall be empowered, among other things, to: 1. Distribute funds in support of scientific research in educational and nonprofit research institutions, such research to be wholly under the control of such institutions. 2. Initiate and finance, in appropriate agencies, research projects for which existing facilities are unavailable or inadequate. 3. Establish scholarships and fellowships in the natural sciences. 4. Promote dissemination of scientific and technical information. 5. Support international cooperation in science by providing financial aid for international congresses, worldwide associations of scientific societies and scientific research programs organized on an international basis.
6. Devise methods of improving the transition between pure research and its practical applications in industry.
Research Carried on by the Federal Government Research carried on directly by the Federal Government represents an important part of our total research activity and needs to be strengthened and expanded after the war. Expansion, however, should be limited to fields
of inquiry and service which are of public importance and are not adequately carried on by private enterprise. 75
To increase the effectiveness of research done within the various departments and laboratories of Government a number of important changes in existing practices are desirable. 1. The most important single factor in scientific and technical work is the quality of personnel employed. Separate and distinct procedures fer recruiting and classifying scientific personnel are warranted by the exacting technical requirements in these services. No one change from current practice would do more to improve the quality of research con-
ducted by the Government than to establish a separate branch of the Civil Service for scientific and technical positions.
2. A general up-grading of positions and salaries in the scientific services of Government, accompanied by a careful selection of new talent, would be a major contribution to improvement of the quality of research conducted by the Government. 3. Research programs of Government should be assured in terms of their long-run objectives. Appropriations by Congress to the principal Government scientific departments should be made in lump sums for broad programs of research extending over several years. Appropriations
within the assured sum might then be made available as at present in the annual budget. 4. A permanent science advisory board should be created to consult with Government agencies and to advise the executive and legislative branches of Government as to the policies and budgets of Government agencies engaged in scientific research.
Environmental Aids to Industrial Research The structure of Federal taxation and the operation of the patent system have an important impact on the research and development policies of industry. In designing postwar taxes, consideration should be given to increasing incentives to industrial research. The proper treatment of research costs for tax purposes should receive clear legislative definition. Specific recommenda tions on this point are included in the main body of the report.
76
Part One
Introduction
President Roosevelt has asked: been realized without sound instituWhat can the Government do now and tional foundations. Our public and in the future to aid research activities by private universities and nonprofit re-
public and private organizations? ~ “ “ search institutes, our industrial reThe information, the techniques, and the search laboratories, the research agenresearch experience developed by the Office of Scientific Research and Develop- ‘'®S operated by the State and Fedment and by the thousands of scientists in eral Governments, all constitute part the universities and in private industry, of a cooperative pattern within which should be used in the days of peace ahead tremendous achievements have alfor the improvement of the national health, ready been made. We are confident
the creation of new enterprises bringing h thi h f k
new jobs, and the betterment of the na- that within that same Tame wor
tional standard of living. New frontiers of ¢Vven greater developments in science
the mind are before us, and if they are will mark the future. pioneered with the same vision, boldness, The continued progress of science war we can create a fuller and more fruit- a matter of the highest national ful employment and a fuller and more 4™portance. The Federal Govern-
and drive with which we have waged this.
fruitful life. ment, by virtue of its charge to proThe President’s request reflects vide for the common defense and
widespread recognition by the Amer- general welfare, has the responsibility
ican people that the security of a of encouraging and aiding such progmodern nation depends in a vital Tess. It has recognized this responsiway upon scientific research and tech- bility in the past by providing renological progress. It is equally clear search laboratories within the structhat public health, higher standards ture of government, by providing a of living, conservation of national re- climate of law within which industry sources, new jobs and investment op- could advance on ifs own initiative, portunities—in short, the prosperity, and by making limited appropriations well-being and progress of the Amer- 0 certain types: of educational and
ican Nation—all require the con- research institutions. As far as the
tinued flow of new scientific knowl. Committee can determine, there is no edge. Even if a nation’s manpower ™ajor dissent from the view that the declines in relative numbers, even if first two methods of aiding scientific
its geographical frontiers become Progress fall within the proper funcfixed, there always remains one in- on of government. exhaustible national resource—crea- The time has come, however, for
tive scientific research. a careful evaluation of the questions The advanced state of technology raised by direct Federal aid to private in the American economy, of which institutions. Our universities clearly we are justly proud, could not have stand in need of increased financial 7/7
support if they are to strengthen their should not blind us to the truth that,
basic contributions to the scientific with respect to pure research—the life of the Nation. Financial aid may discovery of fundamental new knowl-
also be required to speed up the edge and basic scientific principles transition between basic discoveries _—America has occupied a secondary
in university laboratories and their place. Our spectacular development practical industrial applications. The of the automobile, the airplane, and committee has therefore felt com- radio obscures the fact that they were pelled to examine from the stand- all based on fundamental discoveries point of public policy the question: made in nineteenth-century Europe. “Is a substantial increase in Federal From Europe also came formulation financial aid to scientific research in of most of the laws governing the educational and other nonproft re- transformation of energy, the physisearch institutions necessary and de-_ cal and chemical structure of matter,
sirable?” the behavior of electricity, light, and If the necessity were not clearly magnetism. In recent years the
demonstrable, several considerations United States has made progress in might argue for the undesirability of _ the field of pure science, but an exsuch Federal support. These center amination of the relevant statistics upon the fear that Federal aid might suggests that our efforts in the field
lead to centralized control. It is the of applied science have increased firm conviction of the committee that much faster so that the proportion of centralized control of research by any pure to applied research continues to small group of persons would be dis- decrease. astrous whether such persons were in Several reasons make it imperative government, in industry, or in the to increase pure research at this stage universities. There might be a dan- jn our history. First, the intellectual
ger, too, that increased Federal aid banks of continental Europe, from would discourage existing sources of which we formerly borrowed, have fnancial support. Private individuals become bankrupt through the ravages
might lose interest in contributing to of war. No longer can we count research institutions and the great upon those sources for fundamental foundations might turn their atten- science. Second, in this modern age, tion to other fields. The States might more than ever before, pure research
reduce the support given their large js the pace-maker of technological universities. These varied sources of progress. In the nineteenth century, support have contributed materially Yankee mechanical ingenuity, build-
to the development of vigorous ing upon the basic discoveries of centers of independent initiative European science, could greatly adthroughout the United States and vance the technical arts. Today the prevented control by any one group. situation is different. Future progThe committee has had to weigh ress will be most striking in those these considerations against an analy- highly complex fields — electronics,
sis of the adequacy of the over-all aerodynamics, chemistry—which are support for science in America rela- based directly upon the foundations tive to the needs of society. Our na- of modern science. In the next gentional pre-eminence in the fields of eration, technological advance and applied research and _ technology basic scientific discovery will be in78
separable; a nation which borrows its cisions involve the necessity of balbasic knowledge will be hopelessly ancing irreducible national functions
handicapped in the race for innova- against the free play of individual tion. The other world powers, we _ initiative. It is the belief of this com-
know, intend to foster scientific re- mittee that if certain basic safesearch in the future. Moreover, it is guards are observed in designing a part of our democratic creed to af’rm plan for Government support to sci-
the intrinsic cultural and aesthetic ence, great benefits can be achieved worth of man’s attempt to advance without loss of initiative or freedom.
the frontiers of knowledge and un- The experience of the land-grant derstanding. By that same creed the colleges represents an important prece-
prestige of a nation is enhanced by dent. The scale of Federal aid has its contributions—made in a spirit of been modest but has led to very sigfriendly cooperation and competition nificant results especially in agricul-
—to the world-wide battle against ture; it has not led to domination ignorance, want, and disease. by small groups; it has not been ca-
The increasing need for the culti- pricious and uncertain. On the convation of science in this country is trary, it has progressed on a slowly only too apparent. Are we equipped expanding scale for over 80 years. to meet it? Traditional support from No evidence has been brought before private gifts, from endowment in- the committee that this sort of Fedcome, from grants by the large foun- eral aid has discouraged other sources
dations, and from appropriations by of support. The land-grant colleges State legislatures cannot meet the are examples of harmonious cooperaneed. Research in the natural sci- tion among State and Federal Govences and engineering is becoming ernments, private individuals, and increasingly costly; and the infla- industry. American experience with tionary impact of the war is likely support of higher education by State to heighten the financial burden of and local governments has been exuniversity research. The committee tremely satisfactory, our vigorous has considered whether industry State universities standing as imprescould or should assume most of the — sive testimonials.
burden of support of fundamental The committee foresees that an inresearch or whether other adequate creased measure of Federal support sources of private assistance are in wil] raise new problems. We have, sight. ‘he answer appears to be in therefore, carefully considered the
the negative. possibility of increasing Federal aid
The committee has therefore be- for scientific research without, at the come convinced that an increased same time, introducing undesirable
measure of Federal aid to scientific paternalism. For, in order to be research is necessary. Means must fruitful, scientific research must be be found for administering such aid free—free from the influence of without incurring centralized control pressure groups, free from the neces-
or discouraging private support. sity of producing immediate practical Basically this problem is but one results, free from dictation by any example of a series of similar prob- central board. lems of government in a democracy. Many have been impressed by the Many of our important political de- way in which certain fields of applied 79
science have benefited, during the quantity of scientific research. We war, from an increased measure of _ believe that there are historical preceplanned coordination and direction. dents of Government aid to research,
It has thus been very natural to sup- both in this country and abroad, pose that peacetime research would which show the possibility of probenefit equally from the application viding, within the framework of of similar methods. There are, of sound administrative practice, suscourse, types of scientific inquiry that tained nonpolitical grants which require planning and coordination, would operate in such a manner as and a large degree of control is in- to call forth from existing instituevitable and proper in applied re- tions even greater initiative, effort, search. However, there are several and accomplishment.
reasons why pure science in peace- The organization or instrument time cannot wisely or usefully adopt finally set up should not attempt to
some of the procedures that have play the role of an all-seeing, allworked so well during the war. War powerful planning board trying to is an enterprise that lends itself al- guide in detail the normal growthmost ideally to planning and regi- processes of science. The first and mentation, because immediate ends most essential requirement is that the are more rigidly prescribed than is groups administering a program of possible in other human activities. research assistance be composed of Much of the success of science dur- men of the highest integrity, ability, ing the war is an unhealthy success, and experience, with a thorough unwon by forcing applications of sci- derstanding of the problems of sci-
ence to the disruption or complete ence. The committee believes that displacement of that basic activity in an independent Government body,
pure science which is essential to created by the Congress, free from continuing applications. Finally, and hampering restrictions, staffed with perhaps most important of all, scien- the ablest personnel obtainable, and tists willingly suffer during war a empowered to give sustained and fardegree of direction and control which sighted assistance to science with they would find intolerable and stul- assurance of continuing support,
tifying in times of peace. would constitute the best possible
It is the belief of this committee solution. that increased support of research in It is our belief that the desired American universities and nonprofit purposes can best be served and the institutes will provide the most posi- possible dangers minimized by centive aid to science and technology. tering the responsibility for this proBut we do not believe that any pro- gram in a new organization, a Nagram is better than no program— _ tional Research Foundation, whose that an ill-devised distribution of Fed- function should be the promotion of
eral funds will aid the growth of scientific research and of the appliscience. Our concrete proposals seek cations of research to enhance the to augment the quality as well as the security and welfare of the Nation.
80
Part Two
Present Status and Trends in American Science
To aid in formulating policies of continuing vigorous progress of pure assistance to research, it will be help- science.
ful first to analyze the important One of the peculiarities of pure types of scientific activity and to science is the variety of paths which sketch the development of the prin- lead to productive advance. Many of cipal types of American scientific the most important discoveries have
institutions. come as a result of experiments unA. The Nature of Scientific dertaken wit) Cents different par
Research poses in mind. tatistically it is cer-
tain that important and highly useful Scientific research may be divided discoveries will result from some frac-
into the following broad categories: tion of the work undertaken; but the
(1) pure research, (2) background results of any one particular invesresearch, and (3) applied research tigation cannot be predicted with and development. The boundaries accuracy. between them are by no means clear- The unpredictable nature of pure cut and it is frequently difheult tO science makes desirable the provision assign a given investigation to any of rather special circumstances for its single category. On the other hand, pursuit. Pure research demands from typical instances are easily recog- its followers the freedom of mind to nized, and study of them reveals that —Jook at familiar facts from unfamiliar
each category requires different in- points of view. It does not always stitutional arrangements for maxi- |end itself to organized efforts and is
mum development. refractory to direction from above. In fact, nowhere else is the principle of
1. Pure Research freedom more important for signif-
Pure research is research without cant achievement. It should be specific practical ends. It results in pointed out, however, that many general knowledge and understand- branches of pure science increasingly ing of nature and its laws. This gen- involve the cooperative efforts of nueral knowledge provides the means M™e€rous. individuals, and expensive
of answering a large number of im- apital equipment shared by many portant practical problems, though it workers.
may not give a specific solution to By general consent the discoveries any one of them. The pure scientist of pure science have for centuries may not be at all interested in the been immediately consigned to the practical applications of his work; yet public domain and no valid precethe development of important new dent exists for restricting the advanindustries depends primarily on a__ tages of knowledge of this sort to any 81
individual, corporation, State, or Na- There seems to be little disagree-
tion. All the people are the bene- ment with the view that these surficiaries. Governments dedicated to veys and descriptions of basic facts the public welfare, therefore, have a and the determination of standards responsibility for encouraging and are proper fields for Government ac-
supporting the production of new tion and that centralization of cerknowledge on the broadest possible tain aspects of this work in Federal basis. In the United States this re- laboratories carries many advantages. sponsibility has long been recognized. There are few private organizations equipped to carry out more than a
2. Background Research small fraction of the research needed
The preparation of accurate topo- in these fields. And it is obvious, for graphic and geologic maps, the col- example, that topographic maps are lection of meteorological data, the ™°* useful when maps for the entire determination of physical and chemi- COUDUY observe similar rules in recal constants, the description of spe- gard to scale, contour lines, vellinoe. cies of animals, plants, and minerals, tional markings for roads, dwe lings,
the establishment of standards for °** Similarly, standard units tor hor-
hormones, drugs, and X-ray therapy; mMOnES shou’ be paved on qiniiorm
these and similar types of scientific rest Peoseile. 3 “n f © stated, The
work are here grouped together un- “> Posst>i® th Unto units, ine der the term background research. Federal Government has recognized Such background knowledge provides these responsibilities in principle and
essential data for advances in both the Bureau of Standards serves as an
q lied science. It is al excellent example of how such work aetna ts ee aneby be the carried out most efficiently. widely used engineer, the ran . ay physician and the public at large. In Recent technical advance in such contrast to pure science, the objec- helds as synthetic chemistry and intives of this type of research and the 4ustrial biology have resulted in a methods to be used are reasonably ‘Steam of new compounds and mateclear before an investigation is under- rials too rapid for present laboratories
taken. Thus, comprehensive pro- catalogue. Many substances of grams may be mapped out and the tat potential usefulness are either work carried on by relatively large completely unknown, or their propnumbers of trained personnel as a_ “tes inadequately described. Com-
coordinated effort. plex minerals such as coal, and a
Scientific work of this character is Wealth of agricultural products, are necessarily carried on in all types of composed of chemical compounds, research organizations——in universi- @2Y Oe of which may become the
ties, in industry, and in Government basis of a new industry. What is bureaus. Much of it evolves as a nec- needed 1S enough knowledge about
essary byproduct either of applied their potentialities to justify the priresearch or of development. Only vate investment necessary for their very rarely, however, does the knowl- practical application. If the problem edge obtained emerge in patentable is left entirely in private hands, prog-
form and the public welfare is usu- ress may be very slow. At present, ally best served by prompt publica- only the larger industrial laboratories
tion of the results. have the capacity to engage exten-
82
sively in such research. It seems de- special protection and specially assirable, therefore, for the Government sured support. to arrange for work of this sort, either in its own laboratories or in outside
institutions, and to make the results B. Development of Scientific Reof this research generally available in search in the United States
a systematic manner. During the colonial period of American history, scientific work was
3. Applied Research and Devel- carried on in random, sporadic fash-
opment ion, and for the most part outside the
Applied research and development universities. Franklin and Jefferson differs in several important respects are outstanding examples of the type from pure science. Since the objec- of gifted amateur whose influence tive can often be definitely mapped upon American science continued to out beforehand, the work lends itself be felt well into the nineteenth cento organized effort. If successful, the tury. In the first decades of the Reresults of applied research are of a public, the older American colleges
definitely practical or commercial began to give science increased atvalue. The very heavy expenses of tention in the curriculum. But desuch work are, therefore, undertaken spite the presence on their faculties by private organizations only in the of such outstanding individuals as
hope of ultimately recovering the the Sillimans, Louis Agassiz, and
funds invested. Joseph Henry, it cannot be concluded In several fields, admittedly, such that the colleges were active centers as agriculture and in various special of research, or that science received industries where the individual pro- much emphasis in institutions which, ducing units are small and widely if they were not so exclusively condispersed, the presence of a profit cerned with religious instruction as motive does not ensure the existence heretofore, were still devoted to the
of adequate research and develop- ideals of a liberal education along
ment. The substantial research work the lines of strict classical and literinitiated by the Department of Agri- @7Y tradition. culture has developed in response to With the college environment in-
these special needs. imical or at least cool toward the The distinction between applied growth of scientific research, neither and pure research is not a hard and Government support nor private enfast one, and industrial scientists may dowment was available in the United tackle specific problems from broad States for the promotion of pure re-
fundamental viewpoints. But it is search until late in the nineteenth important to emphasize that there is century. This is in marked contrast a perverse law governing research: to the principal European countries Under the pressure for immediate re- where, almost without exception, sults, and unless deliberate policies science was directly supported by the are set up to guard against this, ap- governments. Gradually in response plied research invariably drives out to a steadily increasing need, the
pure. Federal Government established the The moral is clear: It is pure re- scientific bureaus that it needed to search which deserves and requires fulfill its obligations to the public.
83
During the course of the century it universities and land-grant colleges created the Coast and Geodetic Sur- grew and prospered through generous vey, the Naval Observatory, the De- public support. Science also became partment of Agriculture, and the one of the beneficiaries of the private Geological Survey. In 1836, to cite fortunes built up in the later ninean early example of Federal support teenth century. Whereas earlier it of a scientific venture, the Wilkes had been evident that only the GovExploring Expedition was authorized ernment could assume the burden of “to expand the bounds of science and _ erecting and supporting an astronomi-
to promote knowledge.” But the cal observatory, there were now men practical nature of all these activities like James Lick with fortunes large is evident. Despite several eloquent enough to build and endow such exexpressions by scientific men of the pensive centers of research. Equally important long-run utility of sponsor- important were the contributions of ing pure science, the Congress turned private philanthropy in developing a deaf ear to all proposals for creating universities and in the direct’ support scientific institutions having anything of research through the creation of
but limited and strictly utilitarian nonprofit science institutions and purposes. Washington’s plan for a philanthropic foundations. national university, and the various Two of our best-known privately suggestions for a Government-spon- endowed institutions devoted to pure sored academy or a national institu- yesearch, the Carnegie Institution of tion had the support of public figures Washington and the Rockefeller Inlike Jefferson, Madison, and John titute, were created shortly after the Quincy Adams but were unpopular tyrn of the century. From the same in Congress and were often strenu- gigantic fortunes stemmed the Rockeously opposed by the older private feller Foundation and the Carnegie
colleges. Corporation. Their tremendous conIf Government support for science tributions to the progress of scientific
was not forthcoming, neither was research, not only in America, but support from private gifts or bequests. throughout the world, cannot be ex-
It is signicant that the first consid- aggerated.
erable sum for the support of pure The latter part of the nineteenth science came from a foreigner, the and_ the early twentieth centuries Englishman James Smithson, with witnessed the development of the whose bequest Congress—after de- American medical schools, which tobating its acceptance and disposition day serve as research centers not only
for nearly 10 years—created the for applied or practical medicine but
Smithsonian Institution. for fundamental research in many
As a result of the profound forces biological problems which are basic
which were converting America in to medicine. The medical schools the last decade of the nineteenth cen- appear to have been particularly at-
tury from an essentially backward tractive objects of private philanagricultural Nation to a world power, thropy. Various factors, such as the
changes took place in our attitudes regulation of standards by the protoward science and learning and to- fession at large and the active interward the encouragement that should est of two or three of the largest properly be accorded them. The State foundations, have given to the medi84
cal schools of the country a uniformly grams of scientific and technological advanced status not enjoyed by other research resulting in patents based divisions of our universities. In fact, in large part on the work of their own
only in the case of medical schools laboratories. can the United States be said to excel The First World War provided a all other countries in the number of further stimulus to the growth of first-rate research institutions per unit commercial laboratories by revealing
of population. the inadequacies of our position in Almost equally significant is the industrial research as compared to erowth of the Federal Government’s Germany, especially in the chemical own scientific bureaus. The existing field. Much of our present chemical agencies and departments, especially industry, together with its vast rethe Department of Agriculture, un- search potential, grew up in response derwent an extraordinary develop- to needs which were demonstrated in
ment. An outstanding feature was the war, aided by the availability of the expanding program of grants-in- patents seized from their former aid to the State agricultural experi- German owners. ment stations. The first decades of the twentieth century saw the crea- ¢€ The National Research Budget tion of a number of new scientific bureaus and laboratories: the Bureau The over-all picture of the develof Mines, the Bureau of Standards, pment of research in the United and the National Institute of Health. States, as reflected in the changed The First World War led to the crea- Stucture and magnitude of the nation of the principal service labora- tional research expenditures of the tories, the Naval Research Labora- last 15 years, is shown in table I and tory, for example, and the National '™ the corresponding figure 1. Advisory Committee for Aeronautics. Since statistical information is nec-
By 1932 the total Government ex- essarily fragmentary and dependent penditure for research had risen to UP” arbitrary definitions, most of over 40 million dollars, more than ‘the estimates are subject to a very
double the figure for 1922. considerable margin of error. NeverBut no factor in the gradual emer- theless, the following generalizations gence of American science from its *°*™ warranted: dependent state is more striking than (1) Of the three principal groups the growth of research laboratories in €ngaged in research, private industry industry. Prior to 1880 there were contributes by far the largest portion few, if any, commercial laboratories of the total national expenditures,
worthy of the name; but in the last with the Government coming next decades of the nineteenth century and the educational institutions last. powerful new industries, especially (2) Research expenditures of inin the electrical field, grew out of dustry, Government, and industrial basic technological discoveries and _ institutes have been expanding conthe inventive genius of men like Bell, siderably more rapidly Cig. ID, than Edison, and Elihu Thomson. Firms research in universities and science in these new industries almost from _ institutes. the outset adopted the policy of main- During the war, the Government
taining their lead by energetic pro- expanded its research budget from 85
$69,000,000 in 1940 to $720,000,000 dustry and to the universities. This in 1944. Not all of this large increase resulted in changing the trend of took place in Government labora- university research expenditures. ‘The tories. Substantial sums went to in- universities spent $28,000,000 on Table |
Scientific Research Expenditures and National Income
Nonprofit Total
National industrial |Government| Colleges scientific
Year income ! Industry ? | research (Federal [and univer-| Research jresearch exinstitutes 3) and State)‘ | sities® | Institutes ‘| penditures
Millions Thousands | Thousands | Thousands | Thousands| Thousands | Thousands
1920________| $74,200 | $29,468 |________]_________]-_______|___-___-J]--_--_--
1921_______.| 59,400 07,400 |._._____]______-_._|___-_-__-|---__-__|-_-_---1922________| 60,700 44;000 |________|_________|__-u-___|-__-- je -_--__1928_____.._| 71,600 50,000 ;________| $15,615 |________|_-_-_____ |e ee 1924____.___| 72,100 58,000 ;__.____-]| 16,386 |_._______|_-____-___]___--__1925________| 76,000 64,000 |__.__.__| 18,087 |________|_-__.____]-__-___1926__.___._| 81,600 70,000 |_______-| 16,995 |________]________]-____-__~1927___.___.| 80,100 75,928 |__...._.] 17,119 |________]_-______-|_-_-__--_1928__..__._| 81,700 88,000 j|__._____-| 17,7657 |_.______|-__-_-_--]-___-_-1929________| 87,200 | 106,000 |__._____| 22,825 |________|___.____|_______-
1930___.____| 77,300 | 116,000 $560 24,066 |$20,3538 | $5,212 |$166,191 1981________| 60,3800 | 181,820 1,240 26,945 |__._._.-| 5,218 |_______1982___._____| 42,900 | 120,000 990 40,081 | 24,840 5,159 | 191,070 1933___.__..| 42,200 | 110,268 740 |_________]-_-__---| 4,887 |____-__19384__._____| 49,500 | 124,000 1,540 22,243 | 19,286 4,767 | 171,836 19385__.._.__| 54,400 | 186,000 2,470 25,3828 |___..__.| 4,785 |_.._ -__19386_____.-.| 62,900 | 152,000 2,030 33,891 | 25,000 4,701 | 218,122 1987___._._-| 70,500 | 160,000 3,580 40,786 |___._._--| 4,685 |_______19388___._.___| 64,600 | 177,168 4,080 49,382 | 28,496 4,596 | 263,722 19389______._} 70,829 | 200,000 5,000 |_.._.____]-_-._-.__| 4,581 |-______1940________| 77,809 | 234,000 6,110 69,136 | 31,450 4,549 | 345,245 1941________}| 96,900 |_________| 9,189 | 207,259 |________]________|]-__-___1942________]| 122,200 |_________| 14,079 | 382,151 | 39,575 |________|_______1948________| 149,400 |_________]________| 561,507 |________|_-__-_____]____-_-1944___.____| 160,700 |_________|________| 719,818 |________j|____-___|____-_--
1 Kuznets, Simon 8S., National Income and Its Composition, 1919-38, Vol. I (New York, National Bureau of Economic Research, 1941), p. 137. 2 National Resources Committee, Research—A National Resource, Vol. II, Industrial Research (Washington, Supt. Does., 1938), p. 174; Perazich, G. and Field, P., Industrial Research and Changing Technology
(Philadelphia, WPA, National Research Project, Rep. No. M-4, Jan. 1940), p. 65. ;
3 Includes the industrial research institutes supported primarily by contributions from industry. Estimated $5,000,000 spent by nonprofit industrial research institutes for 1939 and extrapolated for other years by the Battelle Memorial Institute figures given in their publication Research in Action (Columbus, 1944), p. 51. 4 Report on Federal Government expenditures on scientific research. Excludes Federal grants to agricultural experiment stations. 3 percent of Federal Government expenditures estimated as equivalent to scientific research expenditures by the States, exclusive of their grants to agricultural experiment stations and colleges and universities, which are included in the expenditures by the latter. 1940-44 Federal Government figures do not include grants to ‘educational institutions and foundations.” ’ The National Resources Committee reported that $50,000,000 were spent on research by all colleges and universities in 1935-36. Based on the surveys by the Bowman Committee, it was estimated that $25,000,000 of this were for expenditures on research in the natural sciences. The trend shown in research expenditures of a large sample of universities and colleges was used to extrapolate for years other than 1936. Figures include grants from foundations and from the Government for agricultural experiment stations. 6 Includes the endowed research institutes which are not connected with any industry nor an integral
part of any university, such as the Rockefeller Institute of Medical Research, the Wistar Institute, the Carnegie Institution of Washington, the Marine Biological Laboratory at Woods Hole, etc. The estimates have been made upon published information and questionnaires. The trend shown in the institutions on which complete information was available was used to extrapolate the research expenditures in other research institutes. It was estimated that six institutes constituted 75 percent of the total expenditures.
86
research in 1938, while in 1943-44 very retarded, the corresponding ratio the Office of Scientific Research and of pure to applied research is esti-
Development, alone, contracted for mated at | to 1.2.? $90,000,000 of research in univer- In the decade from 1930 to 1940
sities and colleges. | applied research was expanding much Certain problems which should be more rapidly in the United States considered in planning for a national than was pure research. During this postwar research program, and some period industrial research expanded guidance in meeting these problems, by 100 percent and governmental recan be ascertained from a study of search by 200 percent. Research in the basic prewar trends and relation- colleges and universities increased
1;;
ships. Particularly important is a by 50 percent, and the endowed restudy of the relative expenditures for search institutes Cwhich were pripure and applied research. Accord- marily devoted to pure research) deing to the best available estimates, clined by nearly 15 percent. It may
industry before the war devoted be concluded, therefore, that since about 5 percent of its research governmental and industrial expendibudget, or $9,000,000, and Govern- ture is growing so rapidly, relative ment about 15 percent, or $7,500,- to that of the universities, generous 000, to aie research soe ees) Unt support to university research is esversities, and endowed research insti- ential if the proportion of pure to
tutes spent 70 percent of research theiris re;;a applied to be maintained search budgets, or a total sum of at anything like the previous relation-
nearly $23,000,000 in this way. ‘bine P
Total national expenditure for P-
pure science thus amounted to ap- This support will have to include proximately $40,000,000 while that substantial expenditures for capital for applied reached a figure of $227,- facilities. ‘he great decline in capital 000,000, a ratio of nearly 1 to 6, In outlays of privately supported instiEngland, where the development of _ tutions is very striking. industrial research 1S, admittedly, 2Computed from research budgets listed by
To f. D.,(London, The Social Function 1InBernal, the year 1938. Routledge, 1939).of Science Annual Expenditures for Capital Outlay All Institutions of Higher Education Millions of Dollars Privately supported Publicly supported Fiscal year institutions institutions
1929-30__._.__________eeeee $73.1 $36.6 19381-32_____..-. 2 eee eee 06.8 35.0 193838-34___.-__ ee eee eee 18.1 11.4
1935-86___.______eee 29.6 15.3 40.9 32.1 1937-88_____..eee eee 1939-40____________ eee 20.6 63.6
1941-42... ee 19.8 31.8 Source: Biennial Surveys of Education (Washington, U.S. Office of Education).
87
Some portion of the new plant and the most productive kinds of public equipment constructed during the and private investment. last few years for the purpose of war Next to the achievement of an aderesearch can be converted to peace- quate total volume of research activitime uses. Nevertheless, a consider- ties and the establishment of a proper able amount of new investment will proportion between its pure and aphave to be undertaken after the war. plied phases, maintenance of a conThere can be no doubt that such new tinuous and steady expansion should construction could constitute one of — be considered one of the most impor-
5 5 4. 4 3 3 2 !| |b2 Figure |
Expenditures for Scientific Research in the United States Dollars Per $1,000 of National Income
Pl daly : TOTAL | J /
GOVERNMENT !
|
Ae
/ ‘y |
AR INDUSTRY 74 |
/ ‘\ we / |
15] aad \ e ? Fad ! ® om Fa ~ i \ --7 COLLEGES AND ak, . UNIVERSITIES y
4
RESEARCH INSTITUTES.) gi Ne ral | od te ee ne INDUSTRIAL RESEARCH vesseae,._|_ INSTITUTES
O = rare mame 2B Woes Wide state Udadh O
1920 1925 1930 1935 1940 1945
88
tant objectives of a far-sighted na- search activities in industry and in tional research policy. Idle scientific privately financed universities. Even talent and a retarded rate of scien- if such a temporary recession should tific and technological progress have be much milder than the great de-
depression. Steady maintenance of a lute reduction in the national regenerally high level of production search budget would be substantial
. In oo
and employment would naturally OD- since the general level of research is
viate the necessity of special stabili- now much higher than it was 15 ae poucies cal deel to research years ago. It is urged, therefore, that
, tec 1, ae evetopmen q any national scientific foundation the period of postwar transition an that is established should, as far as
ibleporay temporary recession, how?equitapossi is consistent with sound and ever, increased governmental expend- © CONSISIEN! q iture may be necessary in order to ble policy, increase its grants for reoffset the probable reduction of re- search in periods of depression.
89
Part Three
Scientific Research in American Universities and Colleges
A. The University as a Research l. Present Status of Pure Re-
Environment search in American Universities
Historical development has given The rapid expansion of university the sanction of tradition to the promi- education in this country during the nent role played by the universities present century is encouraging, but in the progress of pure science. The it is wise to remember that a large advent of the agricultural and engi- part of this increase has been devoted neering schools has also increased to undergraduate departments and university interest and responsibility was especially designed to meet in the field of applied research and increased teaching responsibilities.
development. More than any other country in the Several factors combine to empha- world, the United States has undersize the appropriateness of universi- taken to provide higher education on ties for research. The university as a broad base. ‘There has been an even a whole is charged with the responsi- more remarkable percentage rate of
bility not only of maintaining the growth in the number of students knowledge of the past and imparting taking postgraduate courses in Ameri-
it to students but of contributing to can universities. Development of renew knowledge of all kinds. The search has not, however, paralleled scientific worker is thus provided this rapid expansion in teaching. with colleagues who, though they may represent widely differing felds,
all have an understanding ant appre- a Backgr ounds and Trends of ciation of the value of new knowl inancial Support to Universities
edge. The support of our large private The long struggle for academic universities and colleges has come
freedom has provided our universities mainly from endowment gifts and with the means of protecting the sci- foundation grants. The prodigious entist from many of the immediate growth of our public institutions has pressures of convention or prejudice. been supported by appropriations The university at its best provides its from the various legislatures. Since workers with a strong sense of group 1929 fundamental changes in the solidarity and security, plus a sub- American tax and income structure stantial degree of personal and intel- and decline in interest rates have lectual freedom. Both are essential slowed down the rate of new private in the development of new knowl gifts and endowment earnings. Stu-
edge, much of which can arouse dents’ fees constitute an increasing opposition because of its tendency to proportion of the total support of challenge current beliefs and prac- private institutions, and capital out-
tices, lays in those universities are definitely
90
on the downgrade. At the same time adverse effect upon the recruitment research has become increasingly ex- and retention of able university scipensive and many State legislatures entists. are finding it difficult to provide ade-
quate support for such activities in 3, Immediate Effects of the War
their UNIVETSITIES. The above trends were in evidence _ The science departments of univer even before the war. Yet in addition, sities have found it necessary, in view jh present conflict has added a num-
of the decrease in gifts by individ- pe, of very special problems which
uals, to rely more upon industrial il) dominate the situation for a corporations for assistance. This may — pymber of years to come.
imply the distortion of university re- First, and most important, has been search in the direction of short-range the virtual cessation of training of problems at the expense of more new scientific personnel. As a result, fundamental research. Also the free- e must simply accept as axiomatic dom of the university scientist May the fact that there will be an insufhbe decreased by the introduction of ciency of fully trained young scien-
some degree of commercial control. tits after the war and that it will Undoubtedly, if proper safeguards take a considerable period of time to are maintained, cooperative research repair the deficiency. performed for industry in universities The war has also created a serious
can be expected to increase in the problem of reconversion and rehafuture to the advantage of both fititation for the individual scientist. parties concerned. But in this report The mature scholar, as well as the which wishes steadily to emphasize aqyanced student whose curriculum the need for freedom in science, it is had to be interrupted, needs re-eduwell to speak of the need to guard cation and readjustment. The probagainst control of science by industry jon ie not simply one of returning to as well as against control of science ihe ctatas quo ante bellum. In many
by government. cases the war has increased the reIf university research is to keep search time and opportunities of
pace with the growth of our economy, American college scientists. Necesif able people are to be attracted to sarily the concentration in relatively
college research and teaching, it is few centers of the bulk of war reclear that new sources of financial search will, and should, be reversed support must be found. Incomes of jn time of peace. But it would defiother professions — doctors, lawyers, nitely not be in the national interest dentists, engineers, etc.—have in- if the dispersal of research staffs away creased considerably during the war. from the largest institutions should The cost of living has risen markedly. mean a marked reduction in the reFor the first time the personal in- search opportunities and effectiveness come tax bears sharply on the middle- of university scientists.
income groups. And in the face of Teaching and research are complethese factors, professorial earnings mentary activities, each aiding and
have been frozen at a level which reinforcing the other. But if too was not considered to be overgen- much of the teaching is of a routine, erous 15 years ago. A continuation elementary character, and if the numof this trend will certainly have an ber of teaching hours is so great as 9]
to absorb too much of the time and meet postwar demands may intensify creative energy of the scientists, then the teaching shortage through its the two activities become competitive. tendency to encourage transfers to
Before the war, in all but a few of industry. A number of partial soluthe most prosperous universities, tions suggest themselves, each being teaching loads were excessive from possible only if financial support is the standpoint of optimal research available to make research opportunioutput.! The need to make up for _ ties more plentiful and teaching more the wartime deferment of training attractive. Numerous scientists on may necessitate the “acceleration” of | war work may be encouraged to reeducational programs to a three-term turn to their universities; many of basis for some vears after the war, the newly trained war scientists may
again with harmful effects to re- be encouraged to remain in the uni-
search. versities, competent scientists who
To'the well-trained university sci- before the war were in institutions entist now engaged in war work, the with very little science teaching may immediate academic outlook may _ be transferred to the more active cenhave lost some of its appeal, espe- ters; finally, universities may decide cially if he is research minded. For to alter teaching methods and size of during the war he has had, perhaps classes for at least a few years after for the first time in his life, the fa- the war. These are important shortcilities and assistance to carry on re- run makeshifts. In the long run the search in a really efficient way. At solution will be found in the training the same time, industrial laboratories of more scientists.
will be bidding eagerly for his serv- It is also vitally important that ices. University salaries tend to be sufficient laboratory assistance, matelow compared with those in industry rials, apparatus, clerical and manual and there has been a steady flow of aid be provided for those university university scientists into industrial staff members who are undertaking laboratories. Since one of the most yesearch in the natural sciences. It important fruits of pure research is 1S anomalous, to say the least, that the creation of outstanding applied universities and colleges should hire research men, it is very much in the first-class scientists, equip them with national interest that this movement ofhices and laboratories, and then fail take place in some degree. But in the to provide them with the suppleimmediate postwar period there is mentary funds necessary for produc-
danger that an undue number of tive research. No industrial labora-
trained individuals may go into in- tory would be so imprudent as to use dustry, stripping the universities of the time of highly paid staff members
those who are most competent to for doing shop work. teach a new generation of research A survey was made by this comworkers. It is of the utmost IMpor- mittee to make possible a quantitative tance, therefore, fo maintain a fa- comparison of the support of research vorable competitive position for uni- in universities, nonprofit research in-
versitles relative to industry. stitutions and industrial laboratories
Paradoxically, increasing the teach- Gino the prewar vears. The aim ing load of university scientists to was ° Viccouer iv th just how; *, nearly the
1 See appendix B. universities were approximating the
92
practice, in the use of research per- ceived a cut in its postwar research sonnel, which research institutes and budget of from one-quarter to oneespecially industrial laboratories had third. found to be economical and efficient.1 This prospect is serious for all uniThe results showed that, just prior to versities but perhaps most acute for the war, university science depart- the 25 universities just below the first ments were spending on the direct half dozen in size and resources. The operating costs of research—appara- large wartime university research labtus, materials, technical assistance—__ oratories have drawn upon the inter-
sums of the order of 10 to 40 cents mediate universities for staffs. Such for every dollar of salary paid to tried and experienced men can make members of the research staff. A fig- valuable contributions in their home ure of 15 to 20 cents per salary dollar institutions if adequate funds are was typical of most departments. Fig- made available. Here lies the immeures above 30 cents were uncommon diate opportunity from the Nation’s and were considered to be distinctly point of view, although much also reliberal by standards of current univer- mains to be done at the highest and sity practice. By contrast, in a similar lowest levels. survey of a number of industrial re-
search laboratories, a figure of 40 B. Form of Aid to Universities cents for direct research expenditures,
per dollar of salary paid ‘to the re- Although the Governmen c may search staff, was the lowest encoun- render important indirect aid to unitered. In most of the firms report- Versites by keeping its own laboraing, the research expenditures ranged tXH€s, libraries and other research fa-
from $1 to $3 for each dollar of sal- cilities at a high level of efhiciency, ary. Industries have found that gen- the principal need is for direct finanerous expenditures for assistance to cial support under conditio ns which
, , Il not endanger freedom research workers are economical in ™academic ot a
. wo , gator.
and the personal independence of the long run. Clearly steps must be the investi taken to help the universities bring This committee does not feel that their supplementary research expend- it is desirable to supply these funds
itures more into line with the best by a series of annual congressional
practice. appropriations for specific projects; If the prewar support of research the difficulties these have raised
in universities was inadequate, the within the Government service testify postwar situation promises to be _ to the evils that would be introduced
worse, unless drastic remedies are into the university environment by applied. In view of the wartime in- this practice. The preservation of crease of some 27 percent in the price academic freedom requires that funds
level of all goods,? each of the already be allocated in a way that would inadequate university research dollars = UnIMIZe the possibility of external will go much less far than before the control and would encourage long:
war. Itdepartment is as though every natural an projects. , had already re- xperience in other countries and
science depar of y the successful private ee the example
1 See appendix B. | foundations suggest that a largely
2B. 15, L. 1940, S. Cost of Living Index, all items, . a staff of March to January 15, 1945. autonomous board with
93
men trained in science is the most men working in universities must appropriate agency for carrying on be made in such a way as to avoid this phase of the Government’s re- control of the internal policy of sponsibility for scientific progress. the university, so that the univerRecommendations for the formation sity and not the board will have of a National Research Foundation full responsibility for the adminand additional responsibilities with istration of the grant after it is which it may be charged appear else- once made.
where in this report. The following (4) A constant effort should be paragraphs are devoted to an outline made to improve the general reof the committee’s views respecting its search level in institutions of operation in relation to universities. higher education throughout the To give funds intelligently in sup- country.
port of fundamental research is a os dificult task and there is no gener- No matter on what conditions ally accepted rule of procedure. The OPY 3S siven ee h VERSIE, a
private foundations follow a number of existence iif ue vrren i of different policies and” are con- ° fact. che 3 my sed crn +, poncy: stantly revising their procedures on In ae t hs L vail] 1 “he P Le s of the basis of accumulating experience. research, WHICH will be the object ©
A Covernment board would have the Foundation, itself constitutes a new and perplexing problems stem- change in_ policy. And despite the
ming from its status as an arm of the act that our Committee 3s conceme Government, and from the fact that only with the natural sciences, action the resources at its command would along the lines proposed cannot fa u presumably be large in comparison to have influence on the humanities
with those of any sinol versit and the social sciences. It is our hope
; Y singe UNIVETSIY d belief that the provision of funds or private foundation. The commit- *" P tee recommends, therefore, that such for the natural SCIETIEES would, ”
a board be in large measure free to aia ae ree ae anes
formulate its own rules of procedure e. USE 1. the 1 a cs. 1, © for allocating funds to universities, rom sue Phe IABUEDEES, d ow
as long as these do not transgress ever, It dn © f alloca f0 ce
certain broad general principles. es s and means Of allocating bunds The most important of these _ in large measure without determining
P Or mbes’ SN" what particular problems are to be eral _principles are as follows: D Pree. worked.on and who is to carry them C1) The funds supplied to the gyy. The principle of variety and deuniversities should be used for the centralization of control is nowhere support of significant research with more important than in scientific special emphasis on the universi- work, where the fostering of novelty ties position as the chief contribu- jyict be the first concern. One of the
tor to pure science. most useful ways of preserving these (2) In making grants the board opportunities is to allow the greatest should assure itself that the univer- possible latitude to the accumulated sity has competent and adequately wisdom of university administrative trained personnel to guide the officers and faculties.
studies. The committee has given a great (3) Grants to universities or to deal of thought to the technical form
94
in which Government grants should ple. First, and perhaps most imporbe made in order best to reflect these _ tant, it leaves to the recipient instituprinciples. It does not wish to recom- tion complete freedom in the selecmend that the proposed board be re-_ tion of research programs and _per-
stricted to the use of any particular sonnel. Second, it encourages local plan, as experience will undoubtedly support and utilizes the important reveal in each defects and advantages _ forces of local interest and pride, both
which cannot be predicted before- in screening out unworthy projects hand. ‘The committee, however, feels and in carrying through worth-while
that any instrumentality set up to aid ones. Third, the size of the grant is research in universities should be em- geared more or less realistically to the
powered to allocate funds in any or ability of the institution to utilize it
all of the following ways: effectively. Fourth, since the grants are largely automatic in character, the
1. Matching Grants to Private board is freed from the burden of
and State Supported Institutions investigating intensively the large It is proposed that research funds number of potenti’ recipients ane be made available to accredited uni- he wes at a q ‘elects e 2 gat i2
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